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[>    [>  [>  [>  [> [> [>[>[>[> [>    [>   [>   [>   [>   [>   P>  % Q>  % Q> % Q>% Q>& N>& N>& N>' O>'[> '[>   ([>   (Z>   +Z>   +W>   ,W>  ,V>  ,V>+V>,U>-U> .U> /U> /T> 0T> 1T>  'G>    *J>    *K> ,  )K> ,  )L> ,  (L> ,  (L>,  'M>,  'M>,&N>,&N>,%O>,%O>,>&>&>&>&>>&>&>&>,>>>>>>> > > >+>+  >,  >,  >,  >,  G>-  G>-G>AG> G> G> %G> %G>   %@>   % @>   %@>    >>     >>     >>     >>      >>   >>   >>  >>   >> >> >>  >>  >>    >>    >>    >>    >>    >>     >>    >>      >>   >> , >> , >> , >> ,>> ,>> ,>> ,>> ,>> ,  >>  ,  >>  ,  >>    2>>    2>>    2>>    2>>    2>> 2>> 2>>  2>> 2>> ,2>> ,  2>> &  2>> &  2>> &  2>>   2>> &  2>> &  2>> &2>> ,2>> ,->> ,->> ,->> ,->> ,  ->> ,  ->> ,  ->> ,  0>> ,  0>> ,  2>> ,  2>> ,  2>> +2>> +2>> ,2>> ,2>> ,2>> ,2>> -2>>  2>>  2>>  >>  >>  >>    >>   >>   #>>   #>>   #0>>   #0>>  "0>> "0>>  "0 >>"0 >>"(>> "(>>"(  >>! >>#>>#>># >># >>#>>#>>#>>#>>S>>S>>S>>S >>S >>S>>S>>S>>S>>S>>S>>S>>S >>S >>S >>S >>S<>>S1>>K1>>J1>>J1>>K 2>>S2>>N4>>N4>>N<>>S<>>S:>>S;>>S;>>S;>>S<>>S<>>S<>>3#>>3*>>(>>(>>)>>)>>,>>,>>H2>>H 2>>H  2>>H  ,>>A  ,>>A  ,>>A  ,>>>>GA>>GA>>GA>>NG>>N  G>>G  @>>G  @>>G  @>>  >>  >AG@BCG@CDG@Edcc_&d^&e^&e_%ha'b*a:      3s'TUj%!PS-Adobe-3.0 EPSF-3.0 %%Creator: ImageMark Software Labs %%For: () () %%Title: F:\SHARE\SAYEDUL\QUAL2E\USERMANL\FIG2_1.EPS %%CreationDate: %%BoundingBox: -15 -172 597 618 %%DocumentProcessColors: Black %%DocumentFonts: Helvetica %%+Helvetica-Oblique %%+Symbol %%DocumentSuppliedResources: procset Adobe_packedarray 2.0 0 %%+ procset Adobe_cmykcolor 1.1 0 %%+ procset Adobe_cshow 1.1 0 %%+ procset Adobe_customcolor 1.0 0 %%+ procset Adobe_typography_AI3 1.0 0 %%+ procset Adobe_Illustrator_AI3 1.0 0 %AI3_ColorUsage: Black&White %AI3_TemplateBox: -15 -172 597 618 %AI3_TileBox: -15 -172 597 618 %AI3_DocumentPreview: None %%Template: %%PageOrigin:-15 -172 %%EndComments %%BeginProlog %%BeginResource: procset Adobe_packedarray 2.0 0 %%Title: (Packed Array Operators) %%Version: 2.0 %%CreationDate: (8/2/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) userdict /Adobe_packedarray 5 dict dup begin put /initialize { /packedarray where { pop } { Adobe_packedarray begin Adobe_packedarray { dup xcheck { bind } if userdict 3 1 roll put } forall end } ifelse } def /terminate { } def /packedarray { array astore readonly } def /setpacking { pop } def /currentpacking { false } def currentdict readonly pop end %%EndResource Adobe_packedarray /initialize get exec %%Title: (CMYK Color Operators) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cmykcolor 4 dict dup begin put /initialize { /setcmykcolor where { pop } { userdict /Adobe_cmykcolor_vars 2 dict dup begin put /_setrgbcolor /setrgbcolor load def /_currentrgbcolor /currentrgbcolor load def Adobe_cmykcolor begin Adobe_cmykcolor { dup xcheck { bind } if pop pop } forall end end Adobe_cmykcolor begin } ifelse } def /terminate { currentdict Adobe_cmykcolor eq { end } if } def /setcmykcolor { 1 sub 4 1 roll 3 { 3 index add neg dup 0 lt { pop 0 } if 3 1 roll } repeat Adobe_cmykcolor_vars /_setrgbcolor get exec pop } def /currentcmykcolor { Adobe_cmykcolor_vars /_currentrgbcolor get exec 3 { 1 sub neg 3 1 roll } repeat 0 } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_cshow 1.1 0 %%Title: (cshow Operator) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cshow 3 dict dup begin put /initialize { /cshow where { pop } { userdict /Adobe_cshow_vars 1 dict dup begin put /_cshow {} def Adobe_cshow begin Adobe_cshow { dup xcheck { bind } if userdict 3 1 roll put } forall end end } ifelse } def /terminate { } def /cshow { exch Adobe_cshow_vars exch /_cshow exch put { 0 0 Adobe_cshow_vars /_cshow get exec } forall } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_customcolor 1.0 0 %%Title: (Custom Color Operators) %%Version: 1.0 %%CreationDate: (5/9/88) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_customcolor 5 dict dup begin put /initialize { /setcustomcolor where { pop } { Adobe_customcolor begin Adobe_customcolor { dup xcheck { bind } if pop pop } forall end Adobe_customcolor begin } ifelse } def /terminate { currentdict Adobe_customcolor eq { end } if } def /findcmykcustomcolor { 5 packedarray } def /setcustomcolor { exch aload pop pop 4 { 4 index mul 4 1 roll } repeat 5 -1 roll pop setcmykcolor } def /setoverprint { pop } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_typography_AI3 1.0 0 %%Title: (Typography Operators)%%Version: 1.0 %%CreationDate:(5/31/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_typography_AI3 46 dict dup begin put /initialize { /TZ where { pop } { Adobe_typography_AI3 begin Adobe_typography_AI3 { dup xcheck { bind } if pop pop } forall end Adobe_typography_AI3 begin } ifelse } def /terminate { currentdict Adobe_typography_AI3 eq { end } if } def /modifyEncoding { /_tempEncode exch ddef /_pntr 0 ddef { counttomark -1 roll dup type dup /marktype eq { pop pop exit } { /nametype eq { _tempEncode /_pntr dup load dup 3 1 roll 1 add ddef 3 -1 roll put } { /_pntr exch ddef } ifelse } ifelse } loop _tempEncode } def /TE { StandardEncoding 256 array copy modifyEncoding /_nativeEncoding exch def } def /TZ { /_useNativeEncoding exch def pop pop findfont dup length 2 add dict begin mark exch { 1 index /FID ne { def } if cleartomark mark } forall pop /FontName exch def counttomark 0 eq { Encoding StandardEncoding eq 1 _useNativeEncoding eq and { /Encoding _nativeEncoding def } if cleartomark } { /Encoding load 256 array copy modifyEncoding /Encoding exch def } ifelse FontName currentdict end definefont pop } def /tr { _ax _ay 3 2 roll } def /trj { _cx _cy _sp _ax _ay 6 5 roll } def /a0 { /Tx { dup currentpoint 3 2 roll tr _psf newpath moveto tr _ctm _pss } ddef /Tj { dup currentpoint 3 2 roll trj _pjsf newpath moveto trj _ctm _pjss } ddef } def /a1 { W B } def /e0 { /Tx { tr _psf } ddef /Tj { trj _pjsf } ddef } def /e1 { W F } def /i0 { /Tx { tr sp } ddef /Tj { trj jsp } ddef } def /o0 { /Tx { tr sw rmoveto } ddef /Tj { trj swj rmoveto } ddef } def /r0 { /Tx { tr _ctm _pss } ddef /Tj { trj _ctm _pjss } ddef } def /r1 { W S } def /To { pop _ctm currentmatrix pop } def /TO { Te _ctm setmatrix newpath } def /Tp { pop _tm astore pop _ctm setmatrix 2 dict begin /W {} def /h {} def } def /TP { end iTm 0 0 moveto } def /Tr { Te currentpoint newpath moveto dup 8 eq {pop 0} {dup 9 eq {pop 1} if} ifelse dup /_render exch ddef _renderStart exch get load exec } def /iTm { _ctm setmatrix _tm concat 0 _rise translate _hs 1 scale } def /Te { _render -1 eq {} {_renderEnd _render get dup null ne {load exec} {pop} ifelse} ifelse /_render -1 ddef } def /Tf { dup 1000 div /_fScl exch ddef exch findfont exch scalefont setfont } def /Tl { pop 0 exch _leading astore pop } def /Tt { pop } def /TW { 3 npop } def /Tw { /_cx exch ddef } def /Tc { /_ax exch ddef } def /Ts { /_rise exch ddef currentpoint iTm moveto } def /Ti { 3 npop } def /Tz { 100 div /_hs exch ddef iTm } def /Tq { pop } def /TX {pop} def /Tk { exch pop _fScl mul neg 0 rmoveto } def /T- { _hyphen Tx } def /TS { 0 eq {Tx} {Tj} ifelse } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_Illustrator_AI3 1.0 0 %%Title: (Adobe Illustrator (R) Version 3.0 Full Prolog) %%Version: 1.0 %%CreationDate: (7/22/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_Illustrator_AI3 71 dict dup begin put /initialize { userdict /Adobe_Illustrator_AI3_vars 55 dict dup begin put /_lp /none def /_pf {} def /_ps {} def /_psf {} def /_pss {} def /_pjsf {} def /_pjss {} def /_pola 0 def /_doClip 0 def /cf currentflat def /_tm matrix def /_renderStart [/e0 /r0 /a0 /o0 /i0 /i0 /i0 /i0] def /_renderEnd [null null null null /e1 /r1 /a1 /clip] def /_render -1 def /_rise 0 def /_ax 0 def /_ay 0 def /_cx 0 def /_cy 0 def /_leading [0 0] def /_ctm matrix def /_mtx matrix def /_sp 16#020 def /_hyphen (-) def /_fScl 0 def /_cnt 0 def /_hs 1 def /_nativeEncoding 0 def /_useNativeEncoding 0 def /_tempEncode 0 def /_pntr 0 def /Tx {} def /Tj {} def /CRender {} def /_AI3_savepage {} def /_gf null def /_cf 4 array def /_if null def /_of false def /_fc {} def /_gs null def /_cs 4 array def /_is null def /_os false def /_sc {} def /_pd 1 dict def /_ed 15 dict def /_pm matrix def /_fm null def /_fd null def /_fdd null def /_sm null def /_sd null def /_sdd null def /_i null def Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3 dup /nc get begin { dup xcheck { bind } if pop pop } forall end end end Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3_vars begin newpath } def /terminate { end end } def /_ null def /ddef { Adobe_Illustrator_AI3_vars 3 1 roll put } def /xput { dup load dup length exch maxlength eq { dup dup load dup length 2 mul dict copy def } if load begin def end } def /npop { { pop } repeat } def /sw { dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add } def /swj { dup 4 1 roll dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add 6 2 roll /_cnt 0 ddef {1 index eq {/_cnt _cnt 1 add ddef} if} forall pop exch _cnt mul exch _cnt mul 2 index add 4 1 roll 2 index add 4 1 roll pop pop } def /ss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put pop gsave false charpath currentpoint 4 index setmatrix stroke grestore moveto 2 copy rmoveto } exch cshow 3 npop } def /jss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put gsave _sp eq { exch 6 index 6 index 6 index 5 -1 roll widthshow currentpoint } { false charpath currentpoint 4 index setmatrix stroke }ifelse grestore moveto 2 copy rmoveto } exch cshow 6 npop } def /sp { { 2 npop (0) exch 2 copy 0 exch put pop false charpath 2 copy rmoveto } exch cshow 2 npop } def /jsp { { 2 npop (0) exch 2 copy 0 exch put _sp eq { exch 5 index 5 index 5 index 5 -1 roll widthshow } { false charpath }ifelse 2 copy rmoveto } exch cshow 5 npop } def /pl { transform 0.25 sub round 0.25 add exch 0.25 sub round 0.25 add exch itransform } def /setstrokeadjust where {pop true setstrokeadjust /c { curveto } def /C /c load def /v { currentpoint 6 2 roll curveto } def /V /v load def /y { 2 copy curveto } def /Y /y load def /l { lineto } def /L /l load def /m { moveto } def } { /c { pl curveto } def /C /c load def /v { currentpoint 6 2 roll pl curveto } def /V /v load def /y { pl 2 copy curveto } def /Y /y load def /l { pl lineto } def /L /l load def /m { pl moveto } def } ifelse /d { setdash } def /cf {} def /i { dup 0 eq { pop cf } if setflat } def /j { setlinejoin } def /J { setlinecap } def /M { setmiterlimit } def /w { setlinewidth } def /H {} def /h { closepath } def /N { _pola 0 eq { _doClip 1 eq {clip /_doClip 0 ddef} if newpath } { /CRender {N} ddef }ifelse } def /n {N} def /F { _pola 0 eq { _doClip 1 eq { gsave _pf grestore clip newpath /_lp /none ddef _fc /_doClip 0 ddef } { _pf }ifelse } { /CRender {F} ddef }ifelse } def /f { closepath F } def /S { _pola 0 eq { _doClip 1 eq { gsave _ps grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { _ps }ifelse } { /CRender {S} ddef }ifelse } def /s { closepath S } def /B { _pola 0 eq { _doClip 1 eq gsave F grestore { gsave S grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { S }ifelse } { /CRender {B} ddef }ifelse } def /b { closepath B } def /W { /_doClip 1 ddef } def /* { count 0 ne { dup type (stringtype) eq {pop} if } if _pola 0 eq {newpath} if } def /u {} def /U {} def /q {_pola 0 eq {gsave} if } def /Q { _pola 0 eq {grestore} if } def /*u { _pola 1 add /_pola exch ddef } def /*U { _pola 1 sub /_pola exch ddef _pola 0 eq {CRender} if } def /D {pop} def /*w {} def /*W {} def /` { /_i save ddef 6 1 roll 4 npop concat userdict begin /showpage {} def false setoverprint pop } def /~ { end _i restore } def /@ {} def /& {} def /O { 0 ne /_of exch ddef /_lp /none ddef } def /R { 0 ne /_os exch ddef /_lp /none ddef } def /g { /_gf exch ddef /_fc { _lp /fill ne { _of setoverprint _gf setgray /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /G { /_gs exch ddef /_sc { _lp /stroke ne { _os setoverprint _gs setgray /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /k { _cf astore pop /_fc { _lp /fill ne { _of setoverprint _cf aload pop setcmykcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /K { _cs astore pop /_sc { _lp /stroke ne { _os setoverprint _cs aload pop setcmykcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /x { /_gf exch ddef findcmykcustomcolor /_if exch ddef /_fc { _lp /fill ne { _of setoverprint _if _gf 1 exch sub setcustomcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /X { /_gs exch ddef findcmykcustomcolor /_is exch ddef /_sc { _lp /stroke ne { _os setoverprint _is _gs 1 exch sub setcustomcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /dp { dup null eq { pop _dp 0 ne { 0 1 _dp 1 sub _dl mod { _da exch get 3 get } for _dp 1 sub _dl mod 1 add packedarray _da 0 get aload pop 8 -1 roll 5 -1 roll pop 4 1 roll definepattern pop } if } { _dp 0 ne _dp _dl mod 0 eq and { null dp } if 7 packedarray _da exch _dp _dl mod exch put _dp _dl mod _da 0 get 4 get 2 packedarray /_dp _dp 1 add def } ifelse } def /E { _ed begin dup 0 get type /arraytype ne { 0 { dup 1 add index type /arraytype eq { 1 add } { exit } ifelse } loop array astore } if /_dd exch def /_ury exch def /_urx exch def /_lly exch def /_llx exch def /_n exch def /_y 0 def /_dl 4 def /_dp 0 def /_da _dl array def 0 1 _dd length 1 sub { /_d exch _dd exch get def 0 2 _d length 2 sub { /_x exch def /_c _d _x get _ ne def /_r _d _x 1 add get cvlit def _r _ ne { _urx _llx sub _ury _lly sub [1 0 0 1 0 0] [ /save cvx _llx neg _lly neg /translate cvx _c { nc /begin cvx } if _r dup type /stringtype eq { cvx } { {exec} /forall cvx } ifelse _c { /end cvx } if /restore cvx ] cvx /_fn 12 _n length add string def _y _fn cvs pop /_y _y 1 add def _fn 12 _n putinterval _fn _c false dp _d exch _x 1 add exch put } if } for } for null dp _n _dd /_pd end xput } def /fc { _fm dup concatmatrix pop } def /p { /_fm exch ddef 9 -2 roll _pm translate fc 7 -2 roll _pm scale fc 5 -1 roll _pm rotate fc 4 -2 roll exch 0 ne { dup _pm rotate fc 1 -1 _pm scale fc neg _pm rotate fc } { pop } ifelse dup _pm rotate fc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore fc neg _pm rotate fc _pd exch get /_fdd exch ddef /_pf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm patternfill } { pop fill } ifelse grestore pop } for pop } for restore newpath } ddef /_psf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 9 copy 6 npop patternashow } { pop 6 copy 3 npop ashow } ifelse grestore pop } for pop } for restore sw rmoveto } ddef /_pjsf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 12 copy 6 npop patternawidthshow } { pop 9 copy 3 npop awidthshow } ifelse grestore pop } for pop } for restore swj rmoveto } ddef /_lp /none ddef } def /sc { _sm dup concatmatrix pop } def /P { /_sm exch ddef 9 -2 roll _pm translate sc 7 -2 roll _pm scale sc 5 -1 roll _pm rotate sc 4 -2 roll exch 0 ne { dup _pm rotate sc 1 -1 _pm scale sc neg _pm rotate sc } { pop } ifelse dup _pm rotate sc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore sc neg _pm rotate sc _pd exch get /_sdd exch ddef /_ps { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm patternstroke } { pop stroke } ifelse grestore pop } for pop } for restore newpath } ddef /_pss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 10 copy 6 npop patternashowstroke } { pop 7 copy 3 npop ss } ifelse grestore pop } for pop } for restore pop sw rmoveto } ddef /_pjss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 13 copy 6 npop patternawidthshowstroke } { pop 10 copy 3 npop jss } ifelse grestore pop } for pop } for restore pop swj rmoveto } ddef /_lp /none ddef } def /A { pop } def /nc 3 dict def nc begin /setgray { pop } bind def /setcmykcolor { 4 npop } bind def /setcustomcolor { 2 npop } bind def currentdict readonly pop end /Z {findfont begin currentdict dup length dict begin {1 index /FID ne {def} {pop pop} ifelse} forall /FontName exch def dup length 0 ne {/Encoding Encoding 256 array copy def 0 exch {dup type /nametype eq {Encoding 2 index 2 index put pop 1 add} {exch pop} ifelse} forall} if pop currentdict dup end end /FontName get exch definefont pop} bind def currentdict readonly pop end setpacking /annotatepage { } def %%EndResource %AI3-Grid.0 0 0 0 0 0 0 2 %%EndProlog %%BeginSetup Adobe_cmykcolor /initialize get exec Adobe_cshow /initialize get exec Adobe_customcolor /initialize get exec Adobe_typography_AI3 /initialize get exec Adobe_Illustrator_AI3 /initialize get exec %%BeginEncoding:_Helvetica Helvetica [ 5/breve/dotaccent 11/ogonek/caron 14/dotlessi 39/quotesingle 94/circumflex 96/grave 126/tilde 145/quoteleft/quoteright /quotedblleft/quotedblright/bullet/endash/emdash/ring 164/currency 166/brokenbar168/dieresis/copyright/ordfeminine 172/logicalnot /minus/registered/macron/degree/plusminus/twosuperior/threesuperior /acute/mu 183/periodcentered/cedilla/onesuperior/ordmasculine 188/onequarter/onehalf/threequarters 192/Agrave/Aacute/Acircumflex /Atilde/Adieresis/Aring/AE/Ccedilla/Egrave/Eacute/Ecircumflex 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0.000 0.000 0.000 1.000 k (2) Tx TO 0 To 1.00000 0 0 1.00000 321.000 459.000 0 Tp TP /_Helvetica 11 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(Reaeration\)) Tx TO u 1 w 1 j 233 298 m 256 280 L S U %%PageTrailer gsave annotatepage grestore showpage %%Trailer Adobe_Illustrator_AI3 /terminate get exec Adobe_typography_AI3 /terminate get exec Adobe_customcolor /terminate get exec Adobe_cshow /terminate get exec Adobe_cmykcolor /terminate get exec Adobe_packedarray /terminate get exec %%EOF '3 2dHH3BLBLBLBLBC=LBwC =LBw     LBw  'LBw(  ,LBw0  /LBw0  /LBwC =LBC=LBLBLBLBL3 qj'qj%'qj    qj     qj  qj  qj  qj% qj% qj%'qj  qj  qj  qj  qj  qj%'qj  qj'%qj  qj' qj'qjqjqj%'qjqy/@/G@'/&G@ / G@/ G@  /  G@ /  G@ /  G@ /&G@'/&G@   /   G@ / G@  /  G@  /  G@  /  G@/G@/G@'/&G@ / G@ /(G@ /   G@)/(G@)/(G@/G@!/"G@'/&G@/GS$/-Y S"--YQ!++YQ!,)XR!,*XR!,+XR",+XR#-+XR#-+XR#-+YR#-,YR#.,YS$.-YS%/-YSU-Y3PYPPP ЀNЀN ЀOրOրO߀O߀OPPP3AɀA&ɀA&*A&)A&)A&)A (A (A$'A ' 4MA'2 MA & 2 MA & 2 LA&% 0 LA&%  0 KA&%  .KA $.KA $# JA #JA$# 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wwwpw\RW(wwpwpwwwwpwpwwppwppwwppwwwp\RW)wwpwwpwwwwpwpwpwwpwwwwpwwp\SW)wwpwwpwwwwpwwpwwwwpwwp\SWwwwpwwpwwpppwwwpwwp]SWwwpwpwp]SWww]SWwp]SWwp^TWwpWK@&@@@@!@!@ @@&@ @$@ ?)?(@@"@&@Gr&@Gr&@Fq&@Fq@ESE=SEw=SDw=SD w=SC  w=SCw=SCwwpwpwwpwpww=SBwpwpwpwwwww=SBwppwwpwpp wwpw=SBw pwpwpwwpwpppwppwwwwpw;RAwpwppwppwppwpwwpwp4RAwww5R@ wpww5R@  w!R@  w"S?w"S@wwwpwwpww pwwpwpw"S@w%pwwpwpwwpwwwppwwpwpwppww"S@ wwpwwpwpwpwwwwpwwwppwwwpwwp"SA)wwpwwpwwpwwpwwwppwpwwwpwp#SA)wwpwpwpwwppwppwppwppwppww#TBwww#TB wpwpw#TB wxCwLCwKCwKDwJDwJEwJEIE_ IF` HF`HF`GGa GGaFFFEEDD D EEFF  F  GvGv'HF'HF'IE'IE'JD JD  JDKC KC LB xB xA 'xA'x@'x@'x@x?x?  x>  x?   x?  w@@'@'A  'A   B  B C C D D#D'E'E'F'F'v'v3%TUj%!PS-Adobe-3.0 EPSF-3.0 %%Creator: ImageMark Software Labs %%For: () () %%Title: F:\SHARE\SAYEDUL\QUAL2E\USERMANL\FIG5-1.EPS %%CreationDate: %%BoundingBox: -15 -172 597 618 %%DocumentProcessColors: Black %%DocumentFonts: Times-Roman %%DocumentSuppliedResources: procset Adobe_packedarray 2.0 0 %%+ procset Adobe_cmykcolor 1.1 0 %%+ procset Adobe_cshow 1.1 0 %%+ procset Adobe_customcolor 1.0 0 %%+ procset Adobe_typography_AI3 1.0 0 %%+ procset Adobe_Illustrator_AI3 1.0 0 %AI3_ColorUsage: Black&White %AI3_TemplateBox: -15 -172 597 618 %AI3_TileBox: -15 -172 597 618 %AI3_DocumentPreview: None %%Template: %%PageOrigin:-15 -172 %%EndComments %%BeginProlog %%BeginResource: procset Adobe_packedarray 2.0 0 %%Title: (Packed Array Operators) %%Version: 2.0 %%CreationDate: (8/2/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) userdict /Adobe_packedarray 5 dict dup begin put /initialize { /packedarray where { pop } { Adobe_packedarray begin Adobe_packedarray { dup xcheck { bind } if userdict 3 1 roll put } forall end } ifelse } def /terminate { } def /packedarray { array astore readonly } def /setpacking { pop } def /currentpacking { false } def currentdict readonly pop end %%EndResource Adobe_packedarray /initialize get exec %%Title: (CMYK Color Operators) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cmykcolor 4 dict dup begin put /initialize { /setcmykcolor where { pop } { userdict /Adobe_cmykcolor_vars 2 dict dup begin put /_setrgbcolor /setrgbcolor load def /_currentrgbcolor /currentrgbcolor load def Adobe_cmykcolor begin Adobe_cmykcolor { dup xcheck { bind } if pop pop } forall end end Adobe_cmykcolor begin } ifelse } def /terminate { currentdict Adobe_cmykcolor eq { end } if } def /setcmykcolor { 1 sub 4 1 roll 3 { 3 index add neg dup 0 lt { pop 0 } if 3 1 roll } repeat Adobe_cmykcolor_vars /_setrgbcolor get exec pop } def /currentcmykcolor { Adobe_cmykcolor_vars /_currentrgbcolor get exec 3 { 1 sub neg 3 1 roll } repeat 0 } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_cshow 1.1 0 %%Title: (cshow Operator) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cshow 3 dict dup begin put /initialize { /cshow where { pop } { userdict /Adobe_cshow_vars 1 dict dup begin put /_cshow {} def Adobe_cshow begin Adobe_cshow { dup xcheck { bind } if userdict 3 1 roll put } forall end end } ifelse } def /terminate { } def /cshow { exch Adobe_cshow_vars exch /_cshow exch put { 0 0 Adobe_cshow_vars /_cshow get exec } forall } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_customcolor 1.0 0 %%Title: (Custom Color Operators) %%Version: 1.0 %%CreationDate: (5/9/88) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_customcolor 5 dict dup begin put /initialize { /setcustomcolor where { pop } { Adobe_customcolor begin Adobe_customcolor { dup xcheck { bind } if pop pop } forall end Adobe_customcolor begin } ifelse } def /terminate { currentdict Adobe_customcolor eq { end } if } def /findcmykcustomcolor { 5 packedarray } def /setcustomcolor { exch aload pop pop 4 { 4 index mul 4 1 roll } repeat 5 -1 roll pop setcmykcolor } def /setoverprint { pop } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_typography_AI3 1.0 0 %%Title: (Typography Operators)%%Version: 1.0 %%CreationDate:(5/31/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_typography_AI3 46 dict dup begin put /initialize { /TZ where { pop } { Adobe_typography_AI3 begin Adobe_typography_AI3 { dup xcheck { bind } if pop pop } forall end Adobe_typography_AI3 begin } ifelse } def /terminate { currentdict Adobe_typography_AI3 eq { end } if } def /modifyEncoding { /_tempEncode exch ddef /_pntr 0 ddef { counttomark -1 roll dup type dup /marktype eq { pop pop exit } { /nametype eq { _tempEncode /_pntr dup load dup 3 1 roll 1 add ddef 3 -1 roll put } { /_pntr exch ddef } ifelse } ifelse } loop _tempEncode } def /TE { StandardEncoding 256 array copy modifyEncoding /_nativeEncoding exch def } def /TZ { /_useNativeEncoding exch def pop pop findfont dup length 2 add dict begin mark exch { 1 index /FID ne { def } if cleartomark mark } forall pop /FontName exch def counttomark 0 eq { Encoding StandardEncoding eq 1 _useNativeEncoding eq and { /Encoding _nativeEncoding def } if cleartomark } { /Encoding load 256 array copy modifyEncoding /Encoding exch def } ifelse FontName currentdict end definefont pop } def /tr { _ax _ay 3 2 roll } def /trj { _cx _cy _sp _ax _ay 6 5 roll } def /a0 { /Tx { dup currentpoint 3 2 roll tr _psf newpath moveto tr _ctm _pss } ddef /Tj { dup currentpoint 3 2 roll trj _pjsf newpath moveto trj _ctm _pjss } ddef } def /a1 { W B } def /e0 { /Tx { tr _psf } ddef /Tj { trj _pjsf } ddef } def /e1 { W F } def /i0 { /Tx { tr sp } ddef /Tj { trj jsp } ddef } def /o0 { /Tx { tr sw rmoveto } ddef /Tj { trj swj rmoveto } ddef } def /r0 { /Tx { tr _ctm _pss } ddef /Tj { trj _ctm _pjss } ddef } def /r1 { W S } def /To { pop _ctm currentmatrix pop } def /TO { Te _ctm setmatrix newpath } def /Tp { pop _tm astore pop _ctm setmatrix 2 dict begin /W {} def /h {} def } def /TP { end iTm 0 0 moveto } def /Tr { Te currentpoint newpath moveto dup 8 eq {pop 0} {dup 9 eq {pop 1} if} ifelse dup /_render exch ddef _renderStart exch get load exec } def /iTm { _ctm setmatrix _tm concat 0 _rise translate _hs 1 scale } def /Te { _render -1 eq {} {_renderEnd _render get dup null ne {load exec} {pop} ifelse} ifelse /_render -1 ddef } def /Tf { dup 1000 div /_fScl exch ddef exch findfont exch scalefont setfont } def /Tl { pop 0 exch _leading astore pop } def /Tt { pop } def /TW { 3 npop } def /Tw { /_cx exch ddef } def /Tc { /_ax exch ddef } def /Ts { /_rise exch ddef currentpoint iTm moveto } def /Ti { 3 npop } def /Tz { 100 div /_hs exch ddef iTm } def /Tq { pop } def /TX {pop} def /Tk { exch pop _fScl mul neg 0 rmoveto } def /T- { _hyphen Tx } def /TS { 0 eq {Tx} {Tj} ifelse } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_Illustrator_AI3 1.0 0 %%Title: (Adobe Illustrator (R) Version 3.0 Full Prolog) %%Version: 1.0 %%CreationDate: (7/22/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_Illustrator_AI3 71 dict dup begin put /initialize { userdict /Adobe_Illustrator_AI3_vars 55 dict dup begin put /_lp /none def /_pf {} def /_ps {} def /_psf {} def /_pss {} def /_pjsf {} def /_pjss {} def /_pola 0 def /_doClip 0 def /cf currentflat def /_tm matrix def /_renderStart [/e0 /r0 /a0 /o0 /i0 /i0 /i0 /i0] def /_renderEnd [null null null null /e1 /r1 /a1 /clip] def /_render -1 def /_rise 0 def /_ax 0 def /_ay 0 def /_cx 0 def /_cy 0 def /_leading [0 0] def /_ctm matrix def /_mtx matrix def /_sp 16#020 def /_hyphen (-) def /_fScl 0 def /_cnt 0 def /_hs 1 def /_nativeEncoding 0 def /_useNativeEncoding 0 def /_tempEncode 0 def /_pntr 0 def /Tx {} def /Tj {} def /CRender {} def /_AI3_savepage {} def /_gf null def /_cf 4 array def /_if null def /_of false def /_fc {} def /_gs null def /_cs 4 array def /_is null def /_os false def /_sc {} def /_pd 1 dict def /_ed 15 dict def /_pm matrix def /_fm null def /_fd null def /_fdd null def /_sm null def /_sd null def /_sdd null def /_i null def Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3 dup /nc get begin { dup xcheck { bind } if pop pop } forall end end end Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3_vars begin newpath } def /terminate { end end } def /_ null def /ddef { Adobe_Illustrator_AI3_vars 3 1 roll put } def /xput { dup load dup length exch maxlength eq { dup dup load dup length 2 mul dict copy def } if load begin def end } def /npop { { pop } repeat } def /sw { dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add } def /swj { dup 4 1 roll dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add 6 2 roll /_cnt 0 ddef {1 index eq {/_cnt _cnt 1 add ddef} if} forall pop exch _cnt mul exch _cnt mul 2 index add 4 1 roll 2 index add 4 1 roll pop pop } def /ss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put pop gsave false charpath currentpoint 4 index setmatrix stroke grestore moveto 2 copy rmoveto } exch cshow 3 npop } def /jss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put gsave _sp eq { exch 6 index 6 index 6 index 5 -1 roll widthshow currentpoint } { false charpath currentpoint 4 index setmatrix stroke }ifelse grestore moveto 2 copy rmoveto } exch cshow 6 npop } def /sp { { 2 npop (0) exch 2 copy 0 exch put pop false charpath 2 copy rmoveto } exch cshow 2 npop } def /jsp { { 2 npop (0) exch 2 copy 0 exch put _sp eq { exch 5 index 5 index 5 index 5 -1 roll widthshow } { false charpath }ifelse 2 copy rmoveto } exch cshow 5 npop } def /pl { transform 0.25 sub round 0.25 add exch 0.25 sub round 0.25 add exch itransform } def /setstrokeadjust where {pop true setstrokeadjust /c { curveto } def /C /c load def /v { currentpoint 6 2 roll curveto } def /V /v load def /y { 2 copy curveto } def /Y /y load def /l { lineto } def /L /l load def /m { moveto } def } { /c { pl curveto } def /C /c load def /v { currentpoint 6 2 roll pl curveto } def /V /v load def /y { pl 2 copy curveto } def /Y /y load def /l { pl lineto } def /L /l load def /m { pl moveto } def } ifelse /d { setdash } def /cf {} def /i { dup 0 eq { pop cf } if setflat } def /j { setlinejoin } def /J { setlinecap } def /M { setmiterlimit } def /w { setlinewidth } def /H {} def /h { closepath } def /N { _pola 0 eq { _doClip 1 eq {clip /_doClip 0 ddef} if newpath } { /CRender {N} ddef }ifelse } def /n {N} def /F { _pola 0 eq { _doClip 1 eq { gsave _pf grestore clip newpath /_lp /none ddef _fc /_doClip 0 ddef } { _pf }ifelse } { /CRender {F} ddef }ifelse } def /f { closepath F } def /S { _pola 0 eq { _doClip 1 eq { gsave _ps grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { _ps }ifelse } { /CRender {S} ddef }ifelse } def /s { closepath S } def /B { _pola 0 eq { _doClip 1 eq gsave F grestore { gsave S grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { S }ifelse } { /CRender {B} ddef }ifelse } def /b { closepath B } def /W { /_doClip 1 ddef } def /* { count 0 ne { dup type (stringtype) eq {pop} if } if _pola 0 eq {newpath} if } def /u {} def /U {} def /q {_pola 0 eq {gsave} if } def /Q { _pola 0 eq {grestore} if } def /*u { _pola 1 add /_pola exch ddef } def /*U { _pola 1 sub /_pola exch ddef _pola 0 eq {CRender} if } def /D {pop} def /*w {} def /*W {} def /` { /_i save ddef 6 1 roll 4 npop concat userdict begin /showpage {} def false setoverprint pop } def /~ { end _i restore } def /@ {} def /& {} def /O { 0 ne /_of exch ddef /_lp /none ddef } def /R { 0 ne /_os exch ddef /_lp /none ddef } def /g { /_gf exch ddef /_fc { _lp /fill ne { _of setoverprint _gf setgray /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /G { /_gs exch ddef /_sc { _lp /stroke ne { _os setoverprint _gs setgray /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /k { _cf astore pop /_fc { _lp /fill ne { _of setoverprint _cf aload pop setcmykcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /K { _cs astore pop /_sc { _lp /stroke ne { _os setoverprint _cs aload pop setcmykcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /x { /_gf exch ddef findcmykcustomcolor /_if exch ddef /_fc { _lp /fill ne { _of setoverprint _if _gf 1 exch sub setcustomcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /X { /_gs exch ddef findcmykcustomcolor /_is exch ddef /_sc { _lp /stroke ne { _os setoverprint _is _gs 1 exch sub setcustomcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /dp { dup null eq { pop _dp 0 ne { 0 1 _dp 1 sub _dl mod { _da exch get 3 get } for _dp 1 sub _dl mod 1 add packedarray _da 0 get aload pop 8 -1 roll 5 -1 roll pop 4 1 roll definepattern pop } if } { _dp 0 ne _dp _dl mod 0 eq and { null dp } if 7 packedarray _da exch _dp _dl mod exch put _dp _dl mod _da 0 get 4 get 2 packedarray /_dp _dp 1 add def } ifelse } def /E { _ed begin dup 0 get type /arraytype ne { 0 { dup 1 add index type /arraytype eq { 1 add } { exit } ifelse } loop array astore } if /_dd exch def /_ury exch def /_urx exch def /_lly exch def /_llx exch def /_n exch def /_y 0 def /_dl 4 def /_dp 0 def /_da _dl array def 0 1 _dd length 1 sub { /_d exch _dd exch get def 0 2 _d length 2 sub { /_x exch def /_c _d _x get _ ne def /_r _d _x 1 add get cvlit def _r _ ne { _urx _llx sub _ury _lly sub [1 0 0 1 0 0] [ /save cvx _llx neg _lly neg /translate cvx _c { nc /begin cvx } if _r dup type /stringtype eq { cvx } { {exec} /forall cvx } ifelse _c { /end cvx } if /restore cvx ] cvx /_fn 12 _n length add string def _y _fn cvs pop /_y _y 1 add def _fn 12 _n putinterval _fn _c false dp _d exch _x 1 add exch put } if } for } for null dp _n _dd /_pd end xput } def /fc { _fm dup concatmatrix pop } def /p { /_fm exch ddef 9 -2 roll _pm translate fc 7 -2 roll _pm scale fc 5 -1 roll _pm rotate fc 4 -2 roll exch 0 ne { dup _pm rotate fc 1 -1 _pm scale fc neg _pm rotate fc } { pop } ifelse dup _pm rotate fc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore fc neg _pm rotate fc _pd exch get /_fdd exch ddef /_pf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm patternfill } { pop fill } ifelse grestore pop } for pop } for restore newpath } ddef /_psf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 9 copy 6 npop patternashow } { pop 6 copy 3 npop ashow } ifelse grestore pop } for pop } for restore sw rmoveto } ddef /_pjsf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 12 copy 6 npop patternawidthshow } { pop 9 copy 3 npop awidthshow } ifelse grestore pop } for pop } for restore swj rmoveto } ddef /_lp /none ddef } def /sc { _sm dup concatmatrix pop } def /P { /_sm exch ddef 9 -2 roll _pm translate sc 7 -2 roll _pm scale sc 5 -1 roll _pm rotate sc 4 -2 roll exch 0 ne { dup _pm rotate sc 1 -1 _pm scale sc neg _pm rotate sc } { pop } ifelse dup _pm rotate sc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore sc neg _pm rotate sc _pd exch get /_sdd exch ddef /_ps { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm patternstroke } { pop stroke } ifelse grestore pop } for pop } for restore newpath } ddef /_pss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 10 copy 6 npop patternashowstroke } { pop 7 copy 3 npop ss } ifelse grestore pop } for pop } for restore pop sw rmoveto } ddef /_pjss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 13 copy 6 npop patternawidthshowstroke } { pop 10 copy 3 npop jss } ifelse grestore pop } for pop } for restore pop swj rmoveto } ddef /_lp /none ddef } def /A { pop } def /nc 3 dict def nc begin /setgray { pop } bind def /setcmykcolor { 4 npop } bind def /setcustomcolor { 2 npop } bind def currentdict readonly pop end /Z {findfont begin currentdict dup length dict begin {1 index /FID ne {def} {pop pop} ifelse} forall /FontName exch def dup length 0 ne {/Encoding Encoding 256 array copy def 0 exch {dup type /nametype eq {Encoding 2 index 2 index put pop 1 add} {exch pop} ifelse} forall} if pop currentdict dup end end /FontName get exch definefont pop} bind def currentdict readonly pop end setpacking /annotatepage { } def %%EndResource %AI3-Grid.0 0 0 0 0 0 0 2 %%EndProlog %%BeginSetup Adobe_cmykcolor /initialize get exec Adobe_cshow /initialize get exec Adobe_customcolor /initialize get exec Adobe_typography_AI3 /initialize get exec Adobe_Illustrator_AI3 /initialize get exec %%BeginEncoding:_Times-Roman Times-Roman [ 5/breve/dotaccent 11/ogonek/caron 14/dotlessi 39/quotesingle 94/circumflex 96/grave 126/tilde 145/quoteleft/quoteright /quotedblleft/quotedblright/bullet/endash/emdash/ring 164/currency 166/brokenbar168/dieresis/copyright/ordfeminine 172/logicalnot /minus/registered/macron/degree/plusminus/twosuperior/threesuperior /acute/mu 183/periodcentered/cedilla/onesuperior/ordmasculine 188/onequarter/onehalf/threequarters 192/Agrave/Aacute/Acircumflex /Atilde/Adieresis/Aring/AE/Ccedilla/Egrave/Eacute/Ecircumflex /Edieresis/Igrave/Iacute/Icircumflex/Idieresis/Eth/Ntilde/Ograve /Oacute/Ocircumflex/Otilde/Odieresis/multiply/Oslash/Ugrave/Uacute /Ucircumflex/Udieresis/Yacute/Thorn/germandbls/agrave/aacute/acircumflex /atilde/adieresis/aring/ae/ccedilla/egrave/eacute/ecircumflex/edieresis/igrave /iacute/icircumflex/idieresis/eth/ntilde/ograve/oacute/ocircumflex/otilde /odieresis/divide/oslash/ugrave/uacute/ucircumflex/udieresis/yacute/thorn /ydieresis ] /_Times-Roman/Times-Roman Z %%EndEncoding %%EndSetup u 0.000 0.000 0.000 0.000 k 0.000 0.000 0.000 0.000 K -15 -172 m 597 -172 L 597 618 L -15 618 L -15 -172 L F U u [] 0 d 1 w 0.000 0.000 0.000 1.000 K 1 J 1 j 224 -13 m 179 -13 L 224 -13 L S U u 146 249 m 146 224 L 146 249 L S U u 191 278 m 257 278 L 191 278 L S U u 152 354 m 152 330 L 152 354 L S U u 228 397 m 228 332 L 228 397 L S U u 324 398 m 324 331 L 324 398 L S U u 417 353 m 417 330 L 417 353 L S U u 431 185 m 431 169 L 431 185 L S U u 429 60 m 429 41 L 429 60 L S U 0.000 0.000 0.000 0.000 k u 114 299 m 193 299 L 193 257 L 114 257 L 114 299 L B 153 278 m B U 0.000 0.000 0.000 1.000 k 1 w 1 w *u 421 290 m 412 279 L 421 267 L 441 267 L 451 279 L 441 290 L 421 290 L 421 290 L s *U 0.000 0.000 0.000 1.000 k 1 w 1 w *u 279 297 m 263 279 L 279 260 L 310 260 L 326 279 L 310 297 L 279 297 L 279 297 L s *U 0.000 0.000 0.000 0.176 k u 391 226 m 470 226 L 470 184 L 391 184 L 391 226 L B 430 205 m B U 0.000 0.000 0.000 0.000 k 1 w *u 413 161 m 398 143 L 413 125 L 445 125 L 460 143 L 445 161 L 413 161 L 413 161 L B *U 0.000 0.000 0.000 0.000 k 1 w u 197 437 m 273 437 L 273 396 L 197 396 L 197 437 L B 235 416 m B U 0.000 0.000 0.000 0.000 k u 289 438 m 369 438 L 369 397 L 289 397 L 289 438 L B 329 417 m B U 0.000 0.000 0.000 0.000 k u 113 393 m 193 393 L 193 352 L 113 352 L 113 393 L B 153 372 m B U 0.000 0.000 0.000 0.000 k u 375 393 m 455 393 L 455 352 L 375 352 L 375 393 L B 415 372 m B U 0.000 0.000 0.000 0.000 k u 390 91 m 469 91 L 469 59 L 390 59 L 390 91 L B 429 75 m B U 0.000 0.000 0.000 0.000 k u 114 225 m 193 225 L 193 183 L 114 183 L 114 225 L B 153 204 m B U 0.000 0.000 0.000 1.000 k 1 w 1 w *u 413 33 m 398 15 L 413 -4 L 445 -4 L 460 15 L 445 33 L 413 33 L 413 33 L s *U 0.000 0.000 0.000 0.176 k u 159 133 m 238 133 L 238 90 L 159 90 L 159 133 L B 198 111 m B U 0.000 0.000 0.000 1.000 k 1 w 1 w *u 128 63 m 112 42 L 128 21 L 159 21 L 174 42 L 159 63 L 128 63 L 128 63 L s *U 0.000 0.000 0.000 1.000 k 1 w 1 w *u 125 5 m 110 -13 L 125 -32 L 157 -32 L 172 -13 L 157 5 L 125 5 L 125 5 L s *U u 146 323 m 417 323 L 146 323 L S U u 146 323 m 146 307 L 146 323 L S U 0.000 0.000 0.000 1.000 k 1 w *u 146 300 m 151 315 L 142 315 L 146 300 L 146 300 L F *U 0.000 0.000 0.000 1.000 k *u 152 323 m 156 338 L 148 338 L 152 323 L 152 323 L F *U 0.000 0.000 0.000 1.000 k *u 228 324 m 232 339 L 223 339 L 228 324 L 228 324 L F *U 0.000 0.000 0.000 1.000 k *u 324 324 m 328 338 L 320 338 L 324 324 L 324 324 L F *U 0.000 0.000 0.000 1.000 k *u 417 323 m 421 338 L 412 338 L 417 323 L 417 323 L F *U 0.000 0.000 0.000 1.000 k *u 264 278 m 249 282 L 249 273 L 264 278 L 264 278 L F *U u 1 w 326 279 m 403 279 L 326 279 L S U 0.000 0.000 0.000 1.000 k 1 w *u 411 279 m 396 283 L 396 274 L 411 279 L 411 279 L F *U u 1 w 432 267 m 432 234 L 432 267 L S U 0.000 0.000 0.000 1.000 k 1 w *u 432 226 m 437 241 L 428 241 L 432 226 L 432 226 L F *U 0.000 0.000 0.000 1.000 k *u 431 161 m 435 176 L 426 176 L 431 161 L 431 161 L F *U u 1 w 428 125 m 428 99 L 428 125 L S U 0.000 0.000 0.000 1.000 k 1 w *u 428 91 m 433 106 L 424 106 L 428 91 L 428 91 L F *U 0.000 0.000 0.000 1.000 k *u 429 33 m 433 48 L 424 48 L 429 33 L 429 33 L F *U u 1 w 428 115 m 244 115 L 428 115 L S U 0.000 0.000 0.000 1.000 k 1 w *u 237 115 m 252 110 L 252 119 L 237 115 L 237 115 L F *U u 1 w 356 43 m 356 -15 L 356 43 L S U u 399 15 m 356 15 L 399 15 L S U u 0 w 193 203 m 197 203 L S U u 201 203 m 204 203 L S U u 209 203 m 212 203 L S U u 217 203 m 220 203 L S U u 225 203 m 228 203 L S U u 233 203 m 236 203 L S U u 241 203 m 244 203 L S U u 249 203 m 252 203 L S U u 257 203 m 260 203 L S U u 265 203 m 268 203 L S U u 273 203 m 276 203 L S U u 281 203 m 284 203 L S U u 289 203 m 292 203 L S U u 297 203 m 300 203 L S U u 305 203 m 308 203 L S U u 313 203 m 316 203 L S U u 320 203 m 324 203 L S U u 328 203 m 332 203 L S U u 337 203 m 340 203 L S U u 345 203 m 348 203 L S U u 353 203 m 356 203 L S U u 360 203 m 364 203 L S U u 368 203 m 372 203 L S U u 376 203 m 380 203 L S U u 384 203 m 388 203 L S U 0.000 0.000 0.000 1.000 k 1 w *u 193 203 m 207 199 L 207 208 L 193 203 L 193 203 L F *U 0.000 0.000 0.000 1.000 k *u 146 257 m 142 242 L 150 242 L 146 257 L 146 257 L F *U 0.000 0.000 0.000 0.176 k 1 w u 224 57 m 303 57 L 303 26 L 224 26 L 224 57 L B 263 41 m B U 0.000 0.000 0.000 0.000 k u 222 6 m 301 6 L 301 -36 L 222 -36 L 222 6 L B 261 -15 m B U u 356 44 m 310 44 L 356 44 L S U 0.000 0.000 0.000 1.000 k *u 303 44 m 318 39 L 318 48 L 303 44 L 303 44 L F *U u 356 -15 m 309 -15 L 356 -15 L S U 0.000 0.000 0.000 1.000 k *u 301 -15 m 316 -20 L 316 -11 L 301 -15 L 301 -15 L F *U 0.000 0.000 0.000 1.000 k *u 171 -13 m 186 -17 L 186 -8 L 171 -13 L 171 -13 L F *U u 224 42 m 181 42 L 224 42 L S U 0.000 0.000 0.000 1.000 k *u 174 42 m 189 37 L 189 46 L 174 42 L 174 42 L F *U 0.000 0.000 0.000 0.176 k u 129 473 m 154 473 L 154 459 L 129 459 L 129 473 L B 141 466 m B U 0.000 0.000 0.000 1.000 k u 292 473 m 318 473 L 318 459 L 292 459 L 292 473 L s 305 466 m B U 0.000 0.000 0.000 1.000 k u 117 482 m 444 482 L 444 450 L 117 450 L 117 482 L s 280 466 m B U 0.000 0.000 0.000 1.000 k u 119 480 m 442 480 L 442 452 L 119 452 L 119 480 L s 280 466 m B U 0 To 1.00000 0 0 1.00000 123.000 289.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0 w 0 j 0.000 0.000 0.000 1.000 k (Prepare QUAL2E) Tx TO 0 To 1.00000 0 0 1.00000 122.000 278.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (interface input file) Tx TO 0 To 1.00000 0 0 1.00000 123.000 267.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.INP\)) Tx TO 0 To 1.00000 0 0 1.00000 422.000 278.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (RUN) Tx TO 0 To 1.00000 0 0 1.00000 286.000 285.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Input) Tx TO 0 To 1.00000 0 0 1.00000 275.000 273.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Validation) Tx TO 0 To 1.00000 0 0 1.00000 397.000 216.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Generate QUAL2E) Tx TO 0 To 1.00000 0 0 1.00000 415.000 205.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (input file) Tx TO 0 To 1.00000 0 0 1.00000 397.000 194.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.RUN\)) Tx TO 0 To 1.00000 0 0 1.00000 418.000 150.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Model) Tx TO 0 To 1.00000 0 0 1.00000 411.000 138.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Execution) Tx TO 0 To 1.00000 0 0 1.00000 217.000 429.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Observed) Tx TO 0 To 1.00000 0 0 1.00000 222.000 417.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (DO file) Tx TO 0 To 1.00000 0 0 1.00000 202.000 405.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.DO\)) Tx TO 0 To 1.00000 0 0 1.00000 302.000 429.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Climatological) Tx TO 0 To 1.00000 0 0 1.00000 323.000 417.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (data) Tx TO 0 To 1.00000 0 0 1.00000 295.000 405.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.CLI\)) Tx TO 0 To 1.00000 0 0 1.00000 130.000 384.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Uncertainty) Tx TO 0 To 1.00000 0 0 1.00000 135.000 372.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (input file) Tx TO 0 To 1.00000 0 0 1.00000 116.000 360.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.UNS\)) Tx TO 0 To 1.00000 0 0 1.00000 399.000 384.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Variance) Tx TO 0 To 1.00000 0 0 1.00000 399.000 372.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (input file) Tx TO 0 To 1.00000 0 0 1.00000 378.000 360.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.VAR\)) Tx TO 0 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output in) Tx TO 0 To 1.00000 0 0 1.00000 188.000 111.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (blocks) Tx TO 0 To 1.00000 0 0 1.00000 165.000 100.000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.DOU\)) Tx TO 0 To 1.00000 0 0 1.00000 129.000 54.0000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Display) Tx TO 0 To 1.00000 0 0 1.00000 129.000 42.0000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Stream ) Tx TO 0 To 1.00000 0 0 1.00000 127.000 30.0000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Network) Tx TO 0 To 1.00000 0 0 1.00000 135.000 -7.00000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Plot) Tx TO 0 To 1.00000 0 0 1.00000 128.000 -19.0000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Graphs) Tx TO 0 To 1.00000 0 0 1.00000 230.000 46.0000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Reach graphics file) Tx TO 0 To 1.00000 0 0 1.00000 230.000 35.0000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QAL2E###.RCH\)) Tx TO 0 To 1.00000 0 0 1.00000 238.000 -4.00000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Input files for) Tx TO 0 To 1.00000 0 0 1.00000 250.000 -15.0000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (graphs) Tx TO 0 To 1.00000 0 0 1.00000 229.000 -26.0000 0 Tp TP /_Times-Roman 9 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (\(QALGR###.INP\)) Tx TO 0 To 1.00000 0 0 1.00000 243.000 208.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Saved for future use) Tx TO 0 To 1.00000 0 0 1.00000 171.000 466.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Files invisible to the user ) Tx TO 0 To 1.00000 0 0 1.00000 335.000 466.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Possible user interaction ) Tx TO 0 To 1.00000 0 0 1.00000 156.000 312.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Import) Tx TO 0 To 1.00000 0 0 1.00000 152.000 236.000 0 Tp TP /_Times-Roman 10 Tf 0 Tc 0 Tr 0.000 0.000 0.000 1.000 k (Import) Tx TO %%PageTrailer gsave annotatepage grestore showpage %%Trailer Adobe_Illustrator_AI3 /terminate get exec Adobe_typography_AI3 /terminate get exec Adobe_customcolor /terminate get exec Adobe_cshow /terminate get exec Adobe_cmykcolor /terminate get exec Adobe_packedarray /terminate get exec %%EOF '3 C!dHH3ɀzX]zW^zV_zU_zU`zTazSazRbzQczQczPdzOezNezOfzNgzNgzMhzMhzLizLizKjzKjzJkzJkzIlzIlz@mz9nz4 nz0nz,mz%jz$!izE fy!# ey #ryDby%ay%^y%]yBZy(Yy(Vy(UyB!Ry+"Qy,uxA&Ox.'Nx.'Nx/vx@ Yx1 Yx1Yx2 Yx@Lx 4Kx 5KwAxw8xw7xw8xw@gw;Iv; IL< IL&A dL? dL> \L? 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A?A?q/ A?q/ r/ r/  @@@@@@r2 @@r2r3r3@A@A@Ar6@Ar6r7r7?B@B@BS9@BS:S:S :U MS M>CS M?C_M>D^ :>Dj:j:e:e;j==Ej?=EVA=EU:=EU :U :U :U MT M G!GGr:Gr:Vr:Vr:V;Hq;:Iq;q;pq;oo#J"J"Jp<!Jp<lp<kp;kl KLo<Lo<lo<llMMn=Nn<ln<Pm=Qml lTm=Um=kl>kl>XYk)\l>(]l>m=m=%`$a$ao:!do: ep9hir7lr7ms5pqt.u-tu,  ux(y|%}}$!     jj aa a c  a#d$d3qTUj%!PS-Adobe-3.0 EPSF-3.0 %%Creator: ImageMark Software Labs %%For: () () %%Title: F:\SHARE\SAYEDUL\QUAL2E\USERMANL\FIG6-1.EPS %%CreationDate: %%BoundingBox: -15 -172 597 618 %%DocumentProcessColors: Black %%DocumentFonts: Helvetica %%DocumentSuppliedResources: procset Adobe_packedarray 2.0 0 %%+ procset Adobe_cmykcolor 1.1 0 %%+ procset Adobe_cshow 1.1 0 %%+ procset Adobe_customcolor 1.0 0 %%+ procset Adobe_typography_AI3 1.0 0 %%+ procset Adobe_Illustrator_AI3 1.0 0 %AI3_ColorUsage: Black&White %AI3_TemplateBox: -15 -172 597 618 %AI3_TileBox: -15 -172 597 618 %AI3_DocumentPreview: None %%Template: %%PageOrigin:-15 -172 %%EndComments %%BeginProlog %%BeginResource: procset Adobe_packedarray 2.0 0 %%Title: (Packed Array Operators) %%Version: 2.0 %%CreationDate: (8/2/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) userdict /Adobe_packedarray 5 dict dup begin put /initialize { /packedarray where { pop } { Adobe_packedarray begin Adobe_packedarray { dup xcheck { bind } if userdict 3 1 roll put } forall end } ifelse } def /terminate { } def /packedarray { array astore readonly } def /setpacking { pop } def /currentpacking { false } def currentdict readonly pop end %%EndResource Adobe_packedarray /initialize get exec %%Title: (CMYK Color Operators) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cmykcolor 4 dict dup begin put /initialize { /setcmykcolor where { pop } { userdict /Adobe_cmykcolor_vars 2 dict dup begin put /_setrgbcolor /setrgbcolor load def /_currentrgbcolor /currentrgbcolor load def Adobe_cmykcolor begin Adobe_cmykcolor { dup xcheck { bind } if pop pop } forall end end Adobe_cmykcolor begin } ifelse } def /terminate { currentdict Adobe_cmykcolor eq { end } if } def /setcmykcolor { 1 sub 4 1 roll 3 { 3 index add neg dup 0 lt { pop 0 } if 3 1 roll } repeat Adobe_cmykcolor_vars /_setrgbcolor get exec pop } def /currentcmykcolor { Adobe_cmykcolor_vars /_currentrgbcolor get exec 3 { 1 sub neg 3 1 roll } repeat 0 } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_cshow 1.1 0 %%Title: (cshow Operator) %%Version: 1.1 %%CreationDate: (1/23/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_cshow 3 dict dup begin put /initialize { /cshow where { pop } { userdict /Adobe_cshow_vars 1 dict dup begin put /_cshow {} def Adobe_cshow begin Adobe_cshow { dup xcheck { bind } if userdict 3 1 roll put } forall end end } ifelse } def /terminate { } def /cshow { exch Adobe_cshow_vars exch /_cshow exch put { 0 0 Adobe_cshow_vars /_cshow get exec } forall } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_customcolor 1.0 0 %%Title: (Custom Color Operators) %%Version: 1.0 %%CreationDate: (5/9/88) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_customcolor 5 dict dup begin put /initialize { /setcustomcolor where { pop } { Adobe_customcolor begin Adobe_customcolor { dup xcheck { bind } if pop pop } forall end Adobe_customcolor begin } ifelse } def /terminate { currentdict Adobe_customcolor eq { end } if } def /findcmykcustomcolor { 5 packedarray } def /setcustomcolor { exch aload pop pop 4 { 4 index mul 4 1 roll } repeat 5 -1 roll pop setcmykcolor } def /setoverprint { pop } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_typography_AI3 1.0 0 %%Title: (Typography Operators)%%Version: 1.0 %%CreationDate:(5/31/90) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_typography_AI3 46 dict dup begin put /initialize { /TZ where { pop } { Adobe_typography_AI3 begin Adobe_typography_AI3 { dup xcheck { bind } if pop pop } forall end Adobe_typography_AI3 begin } ifelse } def /terminate { currentdict Adobe_typography_AI3 eq { end } if } def /modifyEncoding { /_tempEncode exch ddef /_pntr 0 ddef { counttomark -1 roll dup type dup /marktype eq { pop pop exit } { /nametype eq { _tempEncode /_pntr dup load dup 3 1 roll 1 add ddef 3 -1 roll put } { /_pntr exch ddef } ifelse } ifelse } loop _tempEncode } def /TE { StandardEncoding 256 array copy modifyEncoding /_nativeEncoding exch def } def /TZ { /_useNativeEncoding exch def pop pop findfont dup length 2 add dict begin mark exch { 1 index /FID ne { def } if cleartomark mark } forall pop /FontName exch def counttomark 0 eq { Encoding StandardEncoding eq 1 _useNativeEncoding eq and { /Encoding _nativeEncoding def } if cleartomark } { /Encoding load 256 array copy modifyEncoding /Encoding exch def } ifelse FontName currentdict end definefont pop } def /tr { _ax _ay 3 2 roll } def /trj { _cx _cy _sp _ax _ay 6 5 roll } def /a0 { /Tx { dup currentpoint 3 2 roll tr _psf newpath moveto tr _ctm _pss } ddef /Tj { dup currentpoint 3 2 roll trj _pjsf newpath moveto trj _ctm _pjss } ddef } def /a1 { W B } def /e0 { /Tx { tr _psf } ddef /Tj { trj _pjsf } ddef } def /e1 { W F } def /i0 { /Tx { tr sp } ddef /Tj { trj jsp } ddef } def /o0 { /Tx { tr sw rmoveto } ddef /Tj { trj swj rmoveto } ddef } def /r0 { /Tx { tr _ctm _pss } ddef /Tj { trj _ctm _pjss } ddef } def /r1 { W S } def /To { pop _ctm currentmatrix pop } def /TO { Te _ctm setmatrix newpath } def /Tp { pop _tm astore pop _ctm setmatrix 2 dict begin /W {} def /h {} def } def /TP { end iTm 0 0 moveto } def /Tr { Te currentpoint newpath moveto dup 8 eq {pop 0} {dup 9 eq {pop 1} if} ifelse dup /_render exch ddef _renderStart exch get load exec } def /iTm { _ctm setmatrix _tm concat 0 _rise translate _hs 1 scale } def /Te { _render -1 eq {} {_renderEnd _render get dup null ne {load exec} {pop} ifelse} ifelse /_render -1 ddef } def /Tf { dup 1000 div /_fScl exch ddef exch findfont exch scalefont setfont } def /Tl { pop 0 exch _leading astore pop } def /Tt { pop } def /TW { 3 npop } def /Tw { /_cx exch ddef } def /Tc { /_ax exch ddef } def /Ts { /_rise exch ddef currentpoint iTm moveto } def /Ti { 3 npop } def /Tz { 100 div /_hs exch ddef iTm } def /Tq { pop } def /TX {pop} def /Tk { exch pop _fScl mul neg 0 rmoveto } def /T- { _hyphen Tx } def /TS { 0 eq {Tx} {Tj} ifelse } def currentdict readonly pop end setpacking %%EndResource %%BeginResource: procset Adobe_Illustrator_AI3 1.0 0 %%Title: (Adobe Illustrator (R) Version 3.0 Full Prolog) %%Version: 1.0 %%CreationDate: (7/22/89) () %%Copyright: ((C) 1987-1990 Adobe Systems Incorporated All Rights Reserved) currentpacking true setpacking userdict /Adobe_Illustrator_AI3 71 dict dup begin put /initialize { userdict /Adobe_Illustrator_AI3_vars 55 dict dup begin put /_lp /none def /_pf {} def /_ps {} def /_psf {} def /_pss {} def /_pjsf {} def /_pjss {} def /_pola 0 def /_doClip 0 def /cf currentflat def /_tm matrix def /_renderStart [/e0 /r0 /a0 /o0 /i0 /i0 /i0 /i0] def /_renderEnd [null null null null /e1 /r1 /a1 /clip] def /_render -1 def /_rise 0 def /_ax 0 def /_ay 0 def /_cx 0 def /_cy 0 def /_leading [0 0] def /_ctm matrix def /_mtx matrix def /_sp 16#020 def /_hyphen (-) def /_fScl 0 def /_cnt 0 def /_hs 1 def /_nativeEncoding 0 def /_useNativeEncoding 0 def /_tempEncode 0 def /_pntr 0 def /Tx {} def /Tj {} def /CRender {} def /_AI3_savepage {} def /_gf null def /_cf 4 array def /_if null def /_of false def /_fc {} def /_gs null def /_cs 4 array def /_is null def /_os false def /_sc {} def /_pd 1 dict def /_ed 15 dict def /_pm matrix def /_fm null def /_fd null def /_fdd null def /_sm null def /_sd null def /_sdd null def /_i null def Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3 dup /nc get begin { dup xcheck { bind } if pop pop } forall end end end Adobe_Illustrator_AI3 begin Adobe_Illustrator_AI3_vars begin newpath } def /terminate { end end } def /_ null def /ddef { Adobe_Illustrator_AI3_vars 3 1 roll put } def /xput { dup load dup length exch maxlength eq { dup dup load dup length 2 mul dict copy def } if load begin def end } def /npop { { pop } repeat } def /sw { dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add } def /swj { dup 4 1 roll dup length exch stringwidth exch 5 -1 roll 3 index 1 sub mul add 4 1 roll 3 1 roll 1 sub mul add 6 2 roll /_cnt 0 ddef {1 index eq {/_cnt _cnt 1 add ddef} if} forall pop exch _cnt mul exch _cnt mul 2 index add 4 1 roll 2 index add 4 1 roll pop pop } def /ss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put pop gsave false charpath currentpoint 4 index setmatrix stroke grestore moveto 2 copy rmoveto } exch cshow 3 npop } def /jss { 4 1 roll { 2 npop (0) exch 2 copy 0 exch put gsave _sp eq { exch 6 index 6 index 6 index 5 -1 roll widthshow currentpoint } { false charpath currentpoint 4 index setmatrix stroke }ifelse grestore moveto 2 copy rmoveto } exch cshow 6 npop } def /sp { { 2 npop (0) exch 2 copy 0 exch put pop false charpath 2 copy rmoveto } exch cshow 2 npop } def /jsp { { 2 npop (0) exch 2 copy 0 exch put _sp eq { exch 5 index 5 index 5 index 5 -1 roll widthshow } { false charpath }ifelse 2 copy rmoveto } exch cshow 5 npop } def /pl { transform 0.25 sub round 0.25 add exch 0.25 sub round 0.25 add exch itransform } def /setstrokeadjust where {pop true setstrokeadjust /c { curveto } def /C /c load def /v { currentpoint 6 2 roll curveto } def /V /v load def /y { 2 copy curveto } def /Y /y load def /l { lineto } def /L /l load def /m { moveto } def } { /c { pl curveto } def /C /c load def /v { currentpoint 6 2 roll pl curveto } def /V /v load def /y { pl 2 copy curveto } def /Y /y load def /l { pl lineto } def /L /l load def /m { pl moveto } def } ifelse /d { setdash } def /cf {} def /i { dup 0 eq { pop cf } if setflat } def /j { setlinejoin } def /J { setlinecap } def /M { setmiterlimit } def /w { setlinewidth } def /H {} def /h { closepath } def /N { _pola 0 eq { _doClip 1 eq {clip /_doClip 0 ddef} if newpath } { /CRender {N} ddef }ifelse } def /n {N} def /F { _pola 0 eq { _doClip 1 eq { gsave _pf grestore clip newpath /_lp /none ddef _fc /_doClip 0 ddef } { _pf }ifelse } { /CRender {F} ddef }ifelse } def /f { closepath F } def /S { _pola 0 eq { _doClip 1 eq { gsave _ps grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { _ps }ifelse } { /CRender {S} ddef }ifelse } def /s { closepath S } def /B { _pola 0 eq { _doClip 1 eq gsave F grestore { gsave S grestore clip newpath /_lp /none ddef _sc /_doClip 0 ddef } { S }ifelse } { /CRender {B} ddef }ifelse } def /b { closepath B } def /W { /_doClip 1 ddef } def /* { count 0 ne { dup type (stringtype) eq {pop} if } if _pola 0 eq {newpath} if } def /u {} def /U {} def /q {_pola 0 eq {gsave} if } def /Q { _pola 0 eq {grestore} if } def /*u { _pola 1 add /_pola exch ddef } def /*U { _pola 1 sub /_pola exch ddef _pola 0 eq {CRender} if } def /D {pop} def /*w {} def /*W {} def /` { /_i save ddef 6 1 roll 4 npop concat userdict begin /showpage {} def false setoverprint pop } def /~ { end _i restore } def /@ {} def /& {} def /O { 0 ne /_of exch ddef /_lp /none ddef } def /R { 0 ne /_os exch ddef /_lp /none ddef } def /g { /_gf exch ddef /_fc { _lp /fill ne { _of setoverprint _gf setgray /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /G { /_gs exch ddef /_sc { _lp /stroke ne { _os setoverprint _gs setgray /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /k { _cf astore pop /_fc { _lp /fill ne { _of setoverprint _cf aload pop setcmykcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /K { _cs astore pop /_sc { _lp /stroke ne { _os setoverprint _cs aload pop setcmykcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /x { /_gf exch ddef findcmykcustomcolor /_if exch ddef /_fc { _lp /fill ne { _of setoverprint _if _gf 1 exch sub setcustomcolor /_lp /fill ddef } if } ddef /_pf { _fc fill } ddef /_psf { _fc ashow } ddef /_pjsf { _fc awidthshow } ddef /_lp /none ddef } def /X { /_gs exch ddef findcmykcustomcolor /_is exch ddef /_sc { _lp /stroke ne { _os setoverprint _is _gs 1 exch sub setcustomcolor /_lp /stroke ddef } if } ddef /_ps { _sc stroke } ddef /_pss { _sc ss } ddef /_pjss { _sc jss } ddef /_lp /none ddef } def /dp { dup null eq { pop _dp 0 ne { 0 1 _dp 1 sub _dl mod { _da exch get 3 get } for _dp 1 sub _dl mod 1 add packedarray _da 0 get aload pop 8 -1 roll 5 -1 roll pop 4 1 roll definepattern pop } if } { _dp 0 ne _dp _dl mod 0 eq and { null dp } if 7 packedarray _da exch _dp _dl mod exch put _dp _dl mod _da 0 get 4 get 2 packedarray /_dp _dp 1 add def } ifelse } def /E { _ed begin dup 0 get type /arraytype ne { 0 { dup 1 add index type /arraytype eq { 1 add } { exit } ifelse } loop array astore } if /_dd exch def /_ury exch def /_urx exch def /_lly exch def /_llx exch def /_n exch def /_y 0 def /_dl 4 def /_dp 0 def /_da _dl array def 0 1 _dd length 1 sub { /_d exch _dd exch get def 0 2 _d length 2 sub { /_x exch def /_c _d _x get _ ne def /_r _d _x 1 add get cvlit def _r _ ne { _urx _llx sub _ury _lly sub [1 0 0 1 0 0] [ /save cvx _llx neg _lly neg /translate cvx _c { nc /begin cvx } if _r dup type /stringtype eq { cvx } { {exec} /forall cvx } ifelse _c { /end cvx } if /restore cvx ] cvx /_fn 12 _n length add string def _y _fn cvs pop /_y _y 1 add def _fn 12 _n putinterval _fn _c false dp _d exch _x 1 add exch put } if } for } for null dp _n _dd /_pd end xput } def /fc { _fm dup concatmatrix pop } def /p { /_fm exch ddef 9 -2 roll _pm translate fc 7 -2 roll _pm scale fc 5 -1 roll _pm rotate fc 4 -2 roll exch 0 ne { dup _pm rotate fc 1 -1 _pm scale fc neg _pm rotate fc } { pop } ifelse dup _pm rotate fc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore fc neg _pm rotate fc _pd exch get /_fdd exch ddef /_pf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm patternfill } { pop fill } ifelse grestore pop } for pop } for restore newpath } ddef /_psf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 9 copy 6 npop patternashow } { pop 6 copy 3 npop ashow } ifelse grestore pop } for pop } for restore sw rmoveto } ddef /_pjsf { save 0 1 _fdd length 1 sub { /_fd exch _fdd exch get ddef _fd 0 2 _fd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _fc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _fm 12 copy 6 npop patternawidthshow } { pop 9 copy 3 npop awidthshow } ifelse grestore pop } for pop } for restore swj rmoveto } ddef /_lp /none ddef } def /sc { _sm dup concatmatrix pop } def /P { /_sm exch ddef 9 -2 roll _pm translate sc 7 -2 roll _pm scale sc 5 -1 roll _pm rotate sc 4 -2 roll exch 0 ne { dup _pm rotate sc 1 -1 _pm scale sc neg _pm rotate sc } { pop } ifelse dup _pm rotate sc exch dup sin exch cos div 1 0 0 1 0 6 2 roll _pm astore sc neg _pm rotate sc _pd exch get /_sdd exch ddef /_ps { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm patternstroke } { pop stroke } ifelse grestore pop } for pop } for restore newpath } ddef /_pss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 10 copy 6 npop patternashowstroke } { pop 7 copy 3 npop ss } ifelse grestore pop } for pop } for restore pop sw rmoveto } ddef /_pjss { save 0 1 _sdd length 1 sub { /_sd exch _sdd exch get ddef _sd 0 2 _sd length 2 sub { gsave 2 copy get dup _ ne { cvx exec _sc } { pop } ifelse 2 copy 1 add get dup _ ne { aload pop findfont _sm 13 copy 6 npop patternawidthshowstroke } { pop 10 copy 3 npop jss } ifelse grestore pop } for pop } for restore pop swj rmoveto } ddef /_lp /none ddef } def /A { pop } def /nc 3 dict def nc begin /setgray { pop } bind def /setcmykcolor { 4 npop } bind def /setcustomcolor { 2 npop } bind def currentdict readonly pop end /Z {findfont begin currentdict dup length dict begin {1 index /FID ne {def} {pop pop} ifelse} forall /FontName exch def dup length 0 ne {/Encoding Encoding 256 array copy def 0 exch {dup type /nametype eq {Encoding 2 index 2 index put pop 1 add} {exch pop} ifelse} forall} if pop currentdict dup end end /FontName get exch definefont pop} bind def currentdict readonly pop end setpacking /annotatepage { } def %%EndResource %AI3-Grid.0 0 0 0 0 0 0 2 %%EndProlog %%BeginSetup Adobe_cmykcolor /initialize get exec Adobe_cshow /initialize get exec Adobe_customcolor /initialize get exec Adobe_typography_AI3 /initialize get exec Adobe_Illustrator_AI3 /initialize get exec %%BeginEncoding:_Helvetica Helvetica [ 5/breve/dotaccent 11/ogonek/caron 14/dotlessi 39/quotesingle 94/circumflex 96/grave 126/tilde 145/quoteleft/quoteright /quotedblleft/quotedblright/bullet/endash/emdash/ring 164/currency 166/brokenbar168/dieresis/copyright/ordfeminine 172/logicalnot /minus/registered/macron/degree/plusminus/twosuperior/threesuperior /acute/mu 183/periodcentered/cedilla/onesuperior/ordmasculine 188/onequarter/onehalf/threequarters 192/Agrave/Aacute/Acircumflex 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2157 2064 2588 2663 %%Creator: CorelDRAW! %%Title: FIG6_2.EPS from CorelDRAW! %%CreationDate: Thu Aug 17 10:57:31 1995 %%DocumentProcessColors: Cyan Magenta Yellow Black %%DocumentFonts: Helvetica %%EndComments %%BeginSetup /AutoFlatness true def % Options: Emulsion Up % Options: Print Positive Output /SepsColor false def /ATraps false def %%EndSetup %%BeginProlog %%BeginResource: procset wCorel4Dict %Copyright (c)1992, 1993 Corel Corporation. All rights reserved. v4.00.00 /wCorel4Dict 300 dict def wCorel4Dict begin/bd{bind def}bind def/ld{load def} bd/xd{exch def}bd/_ null def/rp{{pop}repeat}bd/@cp/closepath ld/@gs/gsave ld /@gr/grestore ld/@np/newpath ld/Tl/translate ld/$sv 0 def/@sv{/$sv save def}bd /@rs{$sv restore}bd/spg/showpage ld/showpage{}bd currentscreen/@dsp xd/$dsp /@dsp def/$dsa xd/$dsf xd/$sdf false def/$SDF false def/$Scra 0 def/SetScr /setscreen ld/setscreen{3 rp}bd/@ss{2 index 0 eq{$dsf 3 1 roll 4 -1 roll pop} if exch $Scra add exch load SetScr}bd/SepMode where{pop}{/SepMode 0 def}ifelse /CurrentInkName where{pop}{/CurrentInkName(Composite)def}ifelse/$ink where {pop}{/$ink -1 def}ifelse/$c 0 def/$m 0 def/$y 0 def/$k 0 def/$t 1 def/$n _ def /$o 0 def/$fil 0 def/$C 0 def/$M 0 def/$Y 0 def/$K 0 def/$T 1 def/$N _ def/$O 0 def/$PF false def/s1c 0 def/s1m 0 def/s1y 0 def/s1k 0 def/s1t 0 def/s1n _ def /$bkg false def/SK 0 def/SM 0 def/SY 0 def/SC 0 def/$op false def matrix currentmatrix/$ctm xd/$ptm matrix def/$ttm matrix def/$stm matrix def/$fst 128 def/$pad 0 def/$rox 0 def/$roy 0 def/CorelDrawReencodeVect[16#0/grave 16#5/breve 16#6/dotaccent 16#8/ring 16#A/hungarumlaut 16#B/ogonek 16#C/caron 16#D/dotlessi 16#82/quotesinglbase/florin/quotedblbase/ellipsis/dagger/daggerdbl 16#88/circumflex/perthousand/Scaron/guilsinglleft/OE 16#91/quoteleft/quoteright/quotedblleft/quotedblright/bullet/endash/emdash 16#98/tilde/trademark/scaron/guilsinglright/oe 16#9F/Ydieresis 16#A1/exclamdown/cent/sterling/currency/yen/brokenbar/section 16#a8/dieresis/copyright/ordfeminine/guillemotleft/logicalnot/minus/registered/macron 16#b0/degree/plusminus/twosuperior/threesuperior/acute/mu/paragraph/periodcentered 16#b8/cedilla/onesuperior/ordmasculine/guillemotright/onequarter/onehalf/threequarters/questiondown 16#c0/Agrave/Aacute/Acircumflex/Atilde/Adieresis/Aring/AE/Ccedilla 16#c8/Egrave/Eacute/Ecircumflex/Edieresis/Igrave/Iacute/Icircumflex/Idieresis 16#d0/Eth/Ntilde/Ograve/Oacute/Ocircumflex/Otilde/Odieresis/multiply 16#d8/Oslash/Ugrave/Uacute/Ucircumflex/Udieresis/Yacute/Thorn/germandbls 16#e0/agrave/aacute/acircumflex/atilde/adieresis/aring/ae/ccedilla 16#e8/egrave/eacute/ecircumflex/edieresis/igrave/iacute/icircumflex/idieresis 16#f0/eth/ntilde/ograve/oacute/ocircumflex/otilde/odieresis/divide 16#f8/oslash/ugrave/uacute/ucircumflex/udieresis/yacute/thorn/ydieresis]def AutoFlatness{/@ifl{dup currentflat exch sub 10 gt{ ([Error: PathTooComplex; OffendingCommand: AnyPaintingOperator]\n)print flush newpath exit}{currentflat 2 add setflat}ifelse}bd/@fill/fill ld/fill{ currentflat{{@fill}stopped{@ifl}{exit}ifelse}bind loop setflat}bd/@eofill /eofill ld/eofill{currentflat{{@eofill}stopped{@ifl}{exit}ifelse}bind loop setflat}bd/@clip/clip ld/clip{currentflat{{@clip}stopped{@ifl}{exit}ifelse} bind loop setflat}bd/@eoclip/eoclip ld/eoclip{currentflat{{@eoclip}stopped {@ifl}{exit}ifelse}bind loop setflat}bd/@stroke/stroke ld/stroke{currentflat{ {@stroke}stopped{@ifl}{exit}ifelse}bind loop setflat}bd}if/d/setdash ld/j /setlinejoin ld/J/setlinecap ld/M/setmiterlimit ld/w/setlinewidth ld/O{/$o xd} bd/R{/$O xd}bd/W/eoclip ld/c/curveto ld/C/c ld/l/lineto ld/L/l ld/rl/rlineto ld /m/moveto ld/n/newpath ld/N/newpath ld/P{11 rp}bd/u{}bd/U{}bd/A{pop}bd/q/@gs ld /Q/@gr ld/`{}bd/~{}bd/@{}bd/&{}bd/@j{@sv @np}bd/@J{@rs}bd/g{1 exch sub/$k xd /$c 0 def/$m 0 def/$y 0 def/$t 1 def/$n _ def/$fil 0 def}bd/G{1 sub neg/$K xd _ 1 0 0 0/$C xd/$M xd/$Y xd/$T xd/$N xd}bd/k{1 index type/stringtype eq{/$t xd /$n xd}{/$t 0 def/$n _ def}ifelse/$k xd/$y xd/$m xd/$c xd/$fil 0 def}bd/K{1 index type/stringtype eq{/$T xd/$N xd}{/$T 0 def/$N _ def}ifelse/$K xd/$Y xd /$M xd/$C xd}bd/x/k ld/X/K ld/sf{1 index type/stringtype eq{/s1t xd/s1n xd}{ /s1t 0 def/s1n _ def}ifelse/s1k xd/s1y xd/s1m xd/s1c xd}bd/i{dup 0 ne{setflat} {pop}ifelse}bd/v{4 -2 roll 2 copy 6 -2 roll c}bd/V/v ld/y{2 copy c}bd/Y/y ld /@w{matrix rotate/$ptm xd matrix scale $ptm dup concatmatrix/$ptm xd 1 eq{$ptm exch dup concatmatrix/$ptm xd}if 1 w}bd/@g{1 eq dup/$sdf xd{/$scp xd/$sca xd /$scf xd}if}bd/@G{1 eq dup/$SDF xd{/$SCP xd/$SCA xd/$SCF xd}if}bd/@D{2 index 0 eq{$dsf 3 1 roll 4 -1 roll pop}if 3 copy exch $Scra add exch load SetScr/$dsp xd/$dsa xd/$dsf xd}bd/$ngx{$SDF{$SCF SepMode 0 eq{$SCA}{$dsa}ifelse $SCP @ss }if}bd/p{/$pm xd 7{pop}repeat/$pyf xd/$pxf xd/$pn xd/$fil 1 def}bd/@MN{2 copy le{pop}{exch pop}ifelse}bd/@MX{2 copy ge{pop}{exch pop}ifelse}bd/InRange{3 -1 roll @MN @MX}bd/wDstChck{2 1 roll dup 3 -1 roll eq{1 add}if}bd/@dot{dup mul exch dup mul add 1 exch sub}bd/@lin{exch pop abs 1 exch sub}bd/SetRgb /setrgbcolor ld/SetHsb/sethsbcolor ld/GetRgb/currentrgbcolor ld/GetHsb /currenthsbcolor ld/SetGry/setgray ld/GetGry/currentgray ld/cmyk2rgb{3{dup 5 -1 roll add 1 exch sub dup 0 lt{pop 0}if exch}repeat pop}bd/rgb2cmyk{3{1 exch sub 3 1 roll}repeat 3 copy @MN @MN 3{dup 5 -1 roll sub neg exch}repeat}bd/rgb2hsb{ SetRgb GetHsb}bd/hsb2rgb{3 -1 roll dup floor sub 3 1 roll SetHsb GetRgb}bd /rgb2g{2 index .299 mul 2 index .587 mul add 1 index .114 mul add 4 1 roll 3 rp }bd/WaldoColor where{pop}{/setcmykcolor where{pop/SetCmyk/setcmykcolor ld}{ /SetCmyk{cmyk2rgb SetRgb}bd}ifelse/currentcmykcolor where{pop/GetCmyk /currentcmykcolor ld}{/GetCmyk{GetRgb rgb2cmyk}bd}ifelse/setoverprint where {pop}{/setoverprint{/$op xd}bd}ifelse/currentoverprint where{pop}{ /currentoverprint{$op}bd}ifelse/@tc{5 -1 roll dup 1 ge{pop}{4{dup 6 -1 roll mul exch}repeat pop}ifelse}bd/@trp{exch pop 5 1 roll @tc}bd/setprocesscolor{ SepMode 0 eq{SetCmyk}{0 4 $ink sub index exch pop 5 1 roll 4 rp SepsColor true eq{$ink 3 gt{1 sub neg SetGry}{0 0 0 4 $ink roll SetCmyk}ifelse}{1 sub neg SetGry}ifelse}ifelse}bd/findcmykcustomcolor where{pop}{/findcmykcustomcolor{5 array astore}bd}ifelse/setcustomcolor where{pop}{/setcustomcolor{exch aload pop SepMode 0 eq{pop @tc setprocesscolor}{CurrentInkName eq{4 index}{0}ifelse 6 1 roll 5 rp 1 sub neg SetGry}ifelse}bd}ifelse/@scc{1 eq setoverprint dup _ eq{ pop setprocesscolor pop}{findcmykcustomcolor exch setcustomcolor}ifelse SepMode 0 eq{true}{GetGry 1 eq currentoverprint and not}ifelse}bd/colorimage where{pop /ColorImage/colorimage ld}{/ColorImage{/ncolors exch def pop/dataaq exch def{ dataaq ncolors dup 3 eq{/$dat exch def 0 1 $dat length 3 div 1 sub{dup 3 mul $dat 1 index get 255 div $dat 2 index 1 add get 255 div $dat 3 index 2 add get 255 div rgb2g 255 mul cvi exch pop $dat 3 1 roll put}for $dat 0 $dat length 3 idiv getinterval pop}{4 eq{/$dat exch def 0 1 $dat length 4 div 1 sub{dup 4 mul $dat 1 index get 255 div $dat 2 index 1 add get 255 div $dat 3 index 2 add get 255 div $dat 4 index 3 add get 255 div cmyk2rgb rgb2g 255 mul cvi exch pop $dat 3 1 roll put}for $dat 0 $dat length ncolors idiv getinterval}if}ifelse}image} bd}ifelse/setcmykcolor{1 5 1 roll _ currentoverprint @scc pop}bd /currentcmykcolor{0 0 0 0}bd/setrgbcolor{rgb2cmyk setcmykcolor}bd /currentrgbcolor{currentcmykcolor cmyk2rgb}bd/sethsbcolor{hsb2rgb setrgbcolor} bd/currenthsbcolor{currentrgbcolor rgb2hsb}bd/setgray{dup dup setrgbcolor}bd /currentgray{currentrgbcolor rgb2g}bd}ifelse/WaldoColor true def/@sft{$tllx $pxf add dup $tllx gt{$pwid sub}if/$tx xd $tury $pyf sub dup $tury lt{$phei add}if/$ty xd}bd/@stb{pathbbox/$ury xd/$urx xd/$lly xd/$llx xd}bd/@ep{{cvx exec }forall}bd/@tp{@sv/$in true def 2 copy dup $lly le{/$in false def}if $phei sub $ury ge{/$in false def}if dup $urx ge{/$in false def}if $pwid add $llx le{/$in false def}if $in{@np 2 copy m $pwid 0 rl 0 $phei neg rl $pwid neg 0 rl 0 $phei rl clip @np $pn cvlit load aload pop 7 -1 roll 5 index sub 7 -1 roll 3 index sub Tl matrix currentmatrix/$ctm xd @ep 4 rp}{2 rp}ifelse @rs}bd/@th{@sft 0 1 $tly 1 sub{dup $psx mul $tx add{dup $llx gt{$pwid sub}{exit}ifelse}loop exch $phei mul $ty exch sub 0 1 $tlx 1 sub{$pwid mul 3 copy 3 -1 roll add exch @tp pop}for 2 rp}for}bd/@tv{@sft 0 1 $tlx 1 sub{dup $pwid mul $tx add exch $psy mul $ty exch sub{dup $ury lt{$phei add}{exit}ifelse}loop 0 1 $tly 1 sub{$phei mul 3 copy sub @tp pop}for 2 rp}for}bd/@pf{@gs $ctm setmatrix $pm concat @stb eoclip Bburx Bbury $pm itransform/$tury xd/$turx xd Bbllx Bblly $pm itransform/$tlly xd/$tllx xd/$wid $turx $tllx sub def/$hei $tury $tlly sub def @gs $vectpat{1 0 0 0 0 _ $o @scc{eofill}if}{$t $c $m $y $k $n $o @scc{SepMode 0 eq $pfrg or{ $tllx $tlly Tl $wid $hei scale <00> 8 1 false[8 0 0 1 0 0]{}imagemask}{/$bkg true def}ifelse}if}ifelse @gr $wid 0 gt $hei 0 gt and{$pn cvlit load aload pop /$pd xd 3 -1 roll sub/$phei xd exch sub/$pwid xd $wid $pwid div ceiling 1 add /$tlx xd $hei $phei div ceiling 1 add/$tly xd $psx 0 eq{@tv}{@th}ifelse}if @gr @np/$bkg false def}bd/@dlt{$fse $fss sub/nff xd $frb dup 1 eq exch 2 eq or{ $frt dup $frc $frm $fry $frk @tc 4 copy cmyk2rgb rgb2hsb 3 copy/myb xd/mys xd /myh xd $tot $toc $tom $toy $tok @tc cmyk2rgb rgb2hsb 3 1 roll 4 1 roll 5 1 roll sub neg nff div/kdb xd sub neg nff div/kds xd sub neg dup 0 eq{pop $frb 2 eq{.99}{-.99}ifelse}if dup $frb 2 eq exch 0 lt and{1 add}if dup $frb 1 eq exch 0 gt and{1 sub}if nff div/kdh xd}{$frt dup $frc $frm $fry $frk @tc 5 copy $tot dup $toc $tom $toy $tok @tc 5 1 roll 6 1 roll 7 1 roll 8 1 roll 9 1 roll sub neg nff div/$dk xd sub neg nff div/$dy xd sub neg nff div/$dm xd sub neg nff div/$dc xd sub neg nff div/$dt xd}ifelse}bd/ffcol{5 copy $fsit 0 eq{ setcmykcolor pop}{SepMode 0 ne{4 index 1 sub neg SetGry 5 rp}{setcmykcolor pop }ifelse}ifelse}bd/@ftl{1 index 4 index sub dup $pad mul dup/$pdw xd 2 mul sub $fst div/$wid xd 2 index sub/$hei xd pop Tl @dlt $fss 0 eq{ffcol n 0 0 m 0 $hei l $pdw $hei l $pdw 0 l @cp fill}if $fss $wid mul $pdw add 0 Tl nff{ffcol n 0 0 m 0 $hei l $wid $hei l $wid 0 l @cp fill $wid 0 Tl $frb dup 1 eq exch 2 eq or{ 4 rp myh mys myb kdb add 3 1 roll kds add 3 1 roll kdh add 3 1 roll 3 copy/myb xd/mys xd/myh xd hsb2rgb rgb2cmyk}{$dk add 5 1 roll $dy add 5 1 roll $dm add 5 1 roll $dc add 5 1 roll $dt add 5 1 roll}ifelse}repeat 5 rp $tot dup $toc $tom $toy $tok @tc ffcol n 0 0 m 0 $hei l $pdw $hei l $pdw 0 l @cp fill 5 rp}bd /@ftr{1 index 4 index sub dup $rox mul/$row xd 2 div 1 index 4 index sub dup $roy mul/$roh xd 2 div 2 copy dup mul exch dup mul add sqrt $row dup mul $roh dup mul add sqrt add dup/$hei xd $fst div/$wid xd 4 index add $roh add exch 5 index add $row add exch Tl 4 rp @dlt $fss 0 eq{ffcol $wid 0 m 0 0 $hei 0 360 arc fill}if 1.0 $pad 2 mul sub dup scale $hei $fss $wid mul sub/$hei xd nff{ ffcol n $wid 0 m 0 0 $hei 0 360 arc fill/$hei $hei $wid sub def $frb dup 1 eq exch 2 eq or{4 rp myh mys myb kdb add 3 1 roll kds add 3 1 roll kdh add 3 1 roll 3 copy/myb xd/mys xd/myh xd hsb2rgb rgb2cmyk}{$dk add 5 1 roll $dy add 5 1 roll $dm add 5 1 roll $dc add 5 1 roll $dt add 5 1 roll}ifelse}repeat 5 rp}bd /@ftc{1 index 4 index sub dup $rox mul/$row xd 2 div 1 index 4 index sub dup $roy mul/$roh xd 2 div 2 copy dup mul exch dup mul add sqrt $row dup mul $roh dup mul add sqrt add dup/$hei xd $fst div/$wid xd 4 index add $roh add exch 5 index add $row add exch Tl 4 rp @dlt $fss 0 eq{ffcol fill}{n}ifelse/$dang 180 $fst 1 sub div def/$sang $dang -2 div 180 add def/$eang $dang 2 div 180 add def /$sang $sang $dang $fss mul add def/$eang $eang $dang $fss mul add def/$sang $eang $dang sub def nff{ffcol n $wid 0 m 0 0 $hei $sang $fan add $eang $fan add arc fill $wid 0 m 0 0 $hei $eang neg $fan add $sang neg $fan add arc fill /$sang $eang def/$eang $eang $dang add def $frb dup 1 eq exch 2 eq or{4 rp myh mys myb kdb add 3 1 roll kds add 3 1 roll kdh add 3 1 roll 3 copy/myb xd/mys xd /myh xd hsb2rgb rgb2cmyk}{$dk add 5 1 roll $dy add 5 1 roll $dm add 5 1 roll $dc add 5 1 roll $dt add 5 1 roll}ifelse}repeat 5 rp}bd/@ff{/$fss 0 def 1 1 $fsc 1 sub{dup 1 sub $fsit 0 eq{$fsa exch 5 mul 5 getinterval aload 2 rp/$frk xd/$fry xd/$frm xd/$frc xd/$frn _ def/$frt 1 def $fsa exch 5 mul 5 getinterval aload pop $fss add/$fse xd/$tok xd/$toy xd/$tom xd/$toc xd/$ton _ def/$tot 1 def}{$fsa exch 7 mul 7 getinterval aload 2 rp/$frt xd/$frn xd/$frk xd/$fry xd /$frm xd/$frc xd $fsa exch 7 mul 7 getinterval aload pop $fss add/$fse xd/$tot xd/$ton xd/$tok xd/$toy xd/$tom xd/$toc xd}ifelse $fsit 0 eq SepMode 0 eq or dup not CurrentInkName $frn eq and or{@sv $ctm setmatrix eoclip Bbllx Bblly Bburx Bbury $fty 2 eq{@ftc}{$fty 1 eq{1 index 3 index m 2 copy l 3 index 1 index l 3 index 3 index l @cp @ftr}{1 index 3 index m 2 copy l 3 index 1 index l 3 index 3 index l @cp 4 rp $fan rotate pathbbox @ftl}ifelse}ifelse @rs/$fss $fse def}if}for @np}bd/@Pf{@sv SepMode 0 eq $ink 3 eq or{0 J 0 j[]0 d $t $c $m $y $k $n $o @scc pop $ctm setmatrix 72 1000 div dup matrix scale dup concat dup Bburx exch Bbury exch itransform ceiling cvi/Bbury xd ceiling cvi/Bburx xd Bbllx exch Bblly exch itransform floor cvi/Bblly xd floor cvi/Bbllx xd $Prm aload pop $Psn load exec}{1 SetGry eofill}ifelse @rs @np}bd/F{matrix currentmatrix $sdf{$scf $sca $scp @ss}if $fil 1 eq{@pf}{$fil 2 eq{@ff}{$fil 3 eq{@Pf}{$t $c $m $y $k $n $o @scc{eofill}{@np}ifelse}ifelse}ifelse}ifelse $sdf {$dsf $dsa $dsp @ss}if setmatrix}bd/f{@cp F}bd/S{matrix currentmatrix $ctm setmatrix $SDF{$SCF $SCA $SCP @ss}if $T $C $M $Y $K $N $O @scc{matrix currentmatrix $ptm concat stroke setmatrix}{@np}ifelse $SDF{$dsf $dsa $dsp @ss}if setmatrix}bd/s{@cp S}bd/B{@gs F @gr S}bd/b{@cp B}bd/E{5 array astore exch cvlit exch def}bd/@cc{currentfile $dat readhexstring pop}bd/@sm{/$ctm $ctm currentmatrix def}bd/@E{/Bbury xd/Bburx xd/Bblly xd/Bbllx xd}bd/@c{@cp}bd/@p{ /$fil 1 def 1 eq dup/$vectpat xd{/$pfrg true def}{@gs $t $c $m $y $k $n $o @scc /$pfrg xd @gr}ifelse/$pm xd/$psy xd/$psx xd/$pyf xd/$pxf xd/$pn xd}bd/@P{/$fil 3 def/$Psn xd array astore/$Prm xd}bd/@k{/$fil 2 def/$roy xd/$rox xd/$pad xd /$fty xd/$fan xd $fty 1 eq{/$fan 0 def}if/$frb xd/$fst xd/$fsc xd/$fsa xd /$fsit 0 def}bd/@x{/$fil 2 def/$roy xd/$rox xd/$pad xd/$fty xd/$fan xd $fty 1 eq{/$fan 0 def}if/$frb xd/$fst xd/$fsc xd/$fsa xd/$fsit 1 def}bd/@ii{concat 3 index 3 index m 3 index 1 index l 2 copy l 1 index 3 index l 3 index 3 index l clip 4 rp}bd/tcc{@cc}def/@i{@sm @gs @ii 6 index 1 ne{/$frg true def 2 rp}{1 eq {s1t s1c s1m s1y s1k s1n $o @scc/$frg xd}{/$frg false def}ifelse 1 eq{@gs $ctm setmatrix F @gr}if}ifelse @np/$ury xd/$urx xd/$lly xd/$llx xd/$bts xd/$hei xd /$wid xd/$dat $wid $bts mul 8 div ceiling cvi string def $bkg $frg or{$SDF {$SCF $SCA $SCP @ss}if $llx $lly Tl $urx $llx sub $ury $lly sub scale $bkg{$t $c $m $y $k $n $o @scc pop}if $wid $hei abs $bts 1 eq{$bkg}{$bts}ifelse[$wid 0 0 $hei neg 0 $hei 0 gt{$hei}{0}ifelse]/tcc load $bts 1 eq {imagemask}{image}ifelse $SDF{$dsf $dsa $dsp @ss}if}{$hei abs{tcc pop}repeat} ifelse @gr $ctm setmatrix}bind def/@M{@sv}bd/@N{/@cc{}def 1 eq{12 -1 roll neg 12 1 roll @I}{13 -1 roll neg 13 1 roll @i}ifelse @rs}bd/@I{@sm @gs @ii @np /$ury xd/$urx xd/$lly xd/$llx xd/$ncl xd/$bts xd/$hei xd/$wid xd/$dat $wid $bts mul $ncl mul 8 div ceiling cvi string def $ngx $llx $lly Tl $urx $llx sub $ury $lly sub scale $wid $hei abs $bts[$wid 0 0 $hei neg 0 $hei 0 gt{$hei}{0}ifelse] /@cc load false $ncl ColorImage $SDF{$dsf $dsa $dsp @ss}if @gr $ctm setmatrix} bd/z{exch findfont exch scalefont setfont}bd/ZB{9 dict dup begin 4 1 roll /FontType 3 def/FontMatrix xd/FontBBox xd/Encoding 256 array def 0 1 255{ Encoding exch/.notdef put}for/CharStrings 256 dict def CharStrings/.notdef{} put/Metrics 256 dict def Metrics/.notdef 3 -1 roll put/BuildChar{exch dup /$char exch/Encoding get 3 index get def dup/Metrics get $char get aload pop setcachedevice begin Encoding exch get CharStrings exch get end exec}def end definefont pop}bd/ZBAddChar{findfont begin dup 4 1 roll dup 6 1 roll Encoding 3 1 roll put CharStrings 3 1 roll put Metrics 3 1 roll put end}bd/Z{findfont dup maxlength 2 add dict exch dup{1 index/FID ne{3 index 3 1 roll put}{2 rp}ifelse }forall pop dup dup/Encoding get 256 array copy dup/$fe xd/Encoding exch put dup/Fontname 3 index put 3 -1 roll dup length 0 ne{0 exch{dup type 0 type eq{ exch pop}{$fe exch 2 index exch put 1 add}ifelse}forall pop}if dup 256 dict dup /$met 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Z:/  ]:0  [:$  Ʉ Z:$/]Z:$0X Z:!3N [:;@i:#!*i:#ai:Cbi:-bi:3ci:N ci:Sdi:]di:i:)R):)R):) R) 3   K   20010    JCBC    20010    JCBC    2  G  25010  HBC  O2  O3  P6+*++>?Ah6)( ) )@>Cg6)+,*?>Ag6 ( *+*>>@g9(+**>A@g6 *( )*>>@g7+**+?@Bh]""]    ]]]    ]      ]  ?2A=4?1* GDʇ%3   5ʈ%2  3%2  2    ʈ  ʇ                 < o t<} t={ rSRRRJJôRRQOQPPOJTMULJI < =  > ? JDopqJtuv""!yW! JZ{\4Y3 2 ^2 ^͉1x0 1 H  }H]}G^yG^F_Jz{{J||HI"#}IJJ~~K~'~(} = q b   X݃ JJJJJJLYJL JYJYJYJI JI JY JJG^JF_JJJGJJJJv2v2w0 x. y,z*{(|&}$~"~ZZYXWVUTSRopqrstuvZvYwYwZ xI xI  JH   JH]JG^JF_J GCBFDFBC  pG  D y^ 8ddd^y Figure 1  Figure 1 y!xXX# ddEPAFLOWR.TIFj y   #V2PkCP#C V L(#҇United Sates Environmental Protection AgencyJ,,,DD Office of Water (4305) J,,,DD EPA/823/B/95/003 August 1995 >J,,,DD ,,DD>ԯ  w #,2p}wCI7#QUAL2E Windows Interface User's Guide  ,,,DD     lT %#W2p}wC x#QUAL2E Windows Interface User's Guide 7  7# :x2p}wChX# 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7#:x2p}wChX# 7 7 7 7 7 7 7 7  }K2% ! #d2p}wC#United States Environmental Protection Agency 0Office of Water 'Office of Science and Technology $ Standards and Applied Science Division /401 M Street, SW -NWashington, DC 20460#d2p}wC#),,,DD 7  :X` hp x (#%'0*,.8135@8:'AC&!V & y &Ddddyڣ DX #:x2p}wChX##d2p}wC#&"e  yxXdddx yyxdddjx y "BHBody text X    7 #`2PkCAP#/3  yx dddxy  6؃    S 3#:s2PkCqXP#FOREWORD#`2PkCAP#у  Water quality standards are implemented through a process of calculating Waste Load Allocations (WLAs) and/or Total Maximum Daily Loads (TMDLs). Ultimately Permit Limits are developed based on the calculated WLAs and TMDLs. Many of these required calculations are preformed with computer simulation models. Either steadystate or dynamic modeling techniques may be used. The Office of Science and Technology develops and maintains analytical tools to assist in performing analysis of water quality problems. The Windows interface developed for the QUAL2E model will help users prepare input files more efficiently. Default values for constants are included in the interface to provide reasonable numbers with which to begin the modeling. Integrated data manipulation options, stream network graphics, and plotting capabilities are among the many useful features included in the QUAL2E Windows interface. Different screens or parts of screens will be active or inactive depending on the input. This feature reduces the potential for making mistakes during data entry. This document is an Agency software user's manual. It does not establish or affect legal rights or obligations. It does not establish binding requirements. This document is expected to be revised periodically to reflect changes in this rapidly evolving area. Comments from users will be welcomed. Send comments to U.S. EPA, Office of Water, Office of Science and Technology, Standards and Applied Science Division (4305), 401 M Street SW, Washington, DC 20460.  O8!g.03o57:w<>'AC'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C<,?h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:Prototype Presentationq'^Subhead#ixP7AP#  M(f 8( .))a) -P ,))8ԌPrototype representation in QUAL2E consists of dividing a stream into a network consisting of "Headwater," "Reaches," and "Junctions." The fundamental reason for subdividing sections of a stream into "reaches" is that QUAL2E assumes that some 26 physical, chemical, and biological parameters (model input parameters or coefficients) are constant along a "reach." For example, different values for Manning's roughness coefficient, sediment oxygen demand, and algal settling rate can be specified by the user for different reaches, but each of these values remains constant over a particular reach. However, the state variables change within a reach; e.g., DO is calculated at each computational element and thus can vary within a reach. The question that must be addressed in order to define a "reach" is what constitutes "significant" change in these model inputs""significant" in the sense of their impact on simulation results, not necessarily in the sense of change in the inputs themselves.  0   }K   ddaa Mass transport in the QUAL2E computer program is handled in a relatively simple manner. There seems to be some confusion about QUAL2E's transport capabilities because it is sometimes called a "quasidynamic" model. However, in all of the computer programs in the QUAL series, there is an explicit assumption of steady flow; the only timevarying forcing functions are the climatologic variables that primarily affect temperature and algal growth. A more appropriate term for this capability is "diel," indicating variation over a 24hour period. The forcing function used for estimating transport is the stream flow rate, which, as mentioned above, is assumed to be constant. Stream velocity, crosssectional area, and depth are computed from stream flow.     }Kd  aadd One of the most important considerations in determining the assimilative capacity of a stream is its ability to maintain an adequate dissolved oxygen concentration. The QUAL2E program performs dissolved oxygen balance by including major source and sink terms in the mass balance equation. As shown in Figure 2.1,  Figure 1 ! Figure 1 the nitrogen cycle is composed of four compartments: organic nitrogen, ammonia nitrogen, nitrite nitrogen, and nitrate nitrogen. The phosphorus cycle is similar to, but simpler than, the nitrogen cycle, having only two compartments. Ultimate carbonaceous biochemical oxygen demand (CBOD) is modeled as( .))jj a firstorder degradation process in QUAL2E. If the modeler uses BOD5 as an input, QUAL2E converts 5day BOD to ultimate BOD for internal calculations. Oxidation processes involved in CBOD decay and in the nutrient cycles represent the primary internal sinks of dissolved oxygen in the QUAL2E program. The major source of dissolved oxygen, in addition to that supplied from algal photosynthesis, is atmospheric reaeration.  S 'پSubhead#:x2p}wChX#2.3>Uncertainty Analysis'^Subhead#ixP7AP#    Uncertainty analysis for model simulations is assuming a growing importance in the field of water quality management. QUAL2E allows the modeler to perform uncertainty analysis on steadystate water quality simulations. Three uncertainty analysis techniques are employed in QUAL2EUNCAS: sensitivity analysis, firstorder error analysis, and Monte Carlo simulation. With this capability, the user can assess the effect of model sensitivities and of uncertain input data on model forecasts. Quantifications of the uncertainty in model forecasts will allow assessment of the risk (probability) of a water quality variable being above or below an acceptable level. The user can select the important input variables to be perturbed and locations on the stream where the uncertainty analysis is to be applied.  S5 'پSubhead#:x2p}wChX#2.4 Data Requirements.'^Subhead#ixP7AP# QUAL2E requires some degree of modeling sophistication and expertise on the part of a user. The user must supply more than 100 individual inputs, some of which require considerable judgment to estimate. The input data in QUAL2E can be grouped into three categories: a stream/river system, global variables, and forcing functions. Additionally, there are three data groups for simulation control and uncertainty analysis. The first step in preparing the QUAL2E inputs is to describe a complete stream/river system by applying the rules that are defined by the model. The stream system should be divided into reaches, which are stretches of stream that have uniform hydraulic characteristics. Each reach is then subdivided into computational elements of equal length. Thus, all reaches must consist of an integer number of computational elements. 8( .))jj) c c/))jj8 Functionally each computational element belongs AxZ'2}j'3FIG2_1.EPS xZ'%B }K  Figure 2.1 QUAL2E Constituent Interactions $8A#$0 .))jjj#0A 0Ԓ$FF(#(#FF(#(#A#$L .))jj g ee))jjj#0A LԒto one of seven types (described later). River reaches are the basis of most input data. The global variables include simulation variables, such as units and simulation type, water quality constituents, and some physical characteristics of the basin. Up to 15 water quality constituents can be modeled by QUAL2E. Forcing functions are userspecified inputs that drive the system being modeled. These inputs are specified in terms of flow, water quality characteristics,L( .))jj) c c/))jjj#0A L $A#$0 .))jjj#0A 0Ԓ$FF(#(#FF(#(#A#$L .))jj e ee))jjj#0A LԒand local climatology. QUAL2E accommodates four  Figure 1 A Figure 1 types of hydraulic and massloadforcing functions in addition to local climatological factors: headwater inputs, point sources or withdrawals, incremental inflow/outflow along a reach, and the downstream boundary concentration (optional).  ~Jx  ddaa Local climatological data are required for the simulation of algae and temperature. The temperature simulation uses a heat balance across the airwater interface and thus requires values of wet and dry bulb air temperatures, atmospheric pressure, wind velocity, and cloud cover. The algal simulation requires values of net solar radiation. For dynamic simulations, these climatological data must be input at regular time intervals over the course of the simulation and are applied uniformly over the entire river basin. For modeling steadystate temperature and algae, average daily local climatological data are required and may vary spatially over the basin by reach. The uncertainty analysis procedures incorporated into the computer program guide the user in the calibration process, in addition to providing information about the uncertainty associated with the calibrated model.  ~JP  aadd To create QUAL2E input files, the user has to follow data type sequences within one particular input file. There are five different input files for which certain combinations must be created before running the model.  .))jj  P 'پSubhead#:x2p}wCX#2.5 Output File]'^Subhead#`2PkCP# QUAL2E produces three types of tables"hydraulics, reaction coefficient, and water quality"in the output file. The hydraulics summary table contains flows, velocities, travel time, depths, and crosssectional areas along each reach. The reaction coefficient table lists the reaction coefficients for simulated constituents. The water quality table reports constituent concentrations along a reach. A summary of temperature calculations may also be included.  B     P 'پSubhead#:x2p}wCX# < 2.6 Model Limitations#'^Subhead#`2PkCP# QUAL2E has been designed to be a relatively general program; however, certain dimensional limitations were imposed during program development (Brown and Barnwell, 1987). These limitations are: C`JBulletsX` hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:(.))),,))8  H    #J2PQP# ÈTable 3.1 Input Screen Sequence in QUAL2E Windows Interface #[2PkC P# h ddx !!!x/<R< h *s  s  * &<& " $Data  Component" X` hp x (#%'0*,.8135@8:246F9;=N@BDDescription  of Input  Data"&\Content"8QUAL2E 9YData 9KType "@Interface*s   * &<8h8& " " m")m";m"? Input ?CFile"E Input Dr Screen F No.* W  * &8h8& " qFG # B2PQP#1_ QUAL2E Simulation control Title, simulation type, unit, timestep";1 *.RUN"GQ!1*W   * &WHh+hh4h& " m Uncertainty analysis, flow augmentation, trapezoidal channels, no. of reaches ";   "Gz!*    * &WHh+hh4h& "2 Stream system Reach ID and river miles/km, headwater, comp., length ";2   "GQ!2*   ?    * &EHhhh4h& "  Element type for each reachA ";3A A "GQ!3*?   ?    * &EEHhhh4h& "3 Global variables Water quality (no. of constituents) "6Title line  "GQ!4(?     A ( &E@dH'Nhh4h& "  Geographical & climatological datav Lat., long., dust., elev., evap.v";1v v"GQ!5&     & &@dH'Nhh4h& "  Plot DO/BOD ^" nv&~!.$&(6+-/>246F9;=N@BD/ ?G!#%O(*,W/14_68;g=?BoDFIwKMList reach numbers to be plottedl";l l"GQ!6(  ?   v( &E@dH'Nhh4h& "  Observed DO file <*.DO"GQ!7*?   ?  l* &EE@dH'Nhh4h& "  Global kinetics, temp. correct. factor"81A, 1B  *.RUN"F!8,9&?  ?  & &EE@d2'Nhh'h&  "4  Functional data" Flow) Flow augmentation)";3) )"F'!10$?    $ &EE#82'hh'h& "L a h Hydraulic data/local climatology"9Q5, 5A "F'!11(  ?   )( &E#82'hh'h& "B W BOD/DO, algae, N, P, reaction coefficient^"76, 6A, 6B^ ^"D 12, 13(?   ?  ( &E#82'hh'h& "  Forcing function Initial conditions"9Q7, 7A "F'!14(?  ?  ^( &EE#852''h'h& "   Incremental inflow"9Q8, 8A "F'!15*?  ?  * &EE#852''h'h& "   Headwater"810, 10A "F'!16*?  ?  * &EE#852''h'h& "> S S Point loads/withdrawalsZ"811, 11AZ Z"F'!17*?  ?  * &EE#852''h'h& "}   Dams":12 "F'!18*?  ?  Z* &EE#852''h'h& "   Downstream boundary"813, 13A "F'!19*?     * &E#852''h'h& "5! Climatological data! Global climatological data file! <*.CLI!"F'!20*     * &#852''h'h& "6" Uncertainty Analysis2" Sensitivity analysis, first order error analysis, Monte Carlo simulation#"8A16, 9# *.UNS#"F'!21*  ?   !* &E@5'u'hh& "$ ($ Input conditions, output%";% %"Gz!*?   ?   #* &EE@5'u'hh& "C% g% Input variables for sensitivity analysisB&";8B& B&"F'!22*?      %* &E@5'u'hh& "& & Input variables for first order and Monte Carlo analyses8("<a*.VAR8("F'!23*   o   B&* &/@5'u'hh& "x( ( Reach (element) numbers to be printed)";7) *.UNS)"F'!24(.))jjo   8(/ H < #J2PQP#ч Table 3.2 Element Types Used in QUAL2E    < y nddd>y  f@  Z / ?G!#%O(*,W/14_68;g=?BoDFIwKMX :p x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C NOTE:XA math coprocessor is recommended but not required.ƒ  P 'پSubhead#:x2p}wCX#4.2XInstalling the SoftwareL('^Subhead#`2PkCP#ƒ  ~J STEP 1.W Insert the QUAL2E Setup Disk (i.e., QUAL2E DISK 1) into drive A or drive B.ƒ NOTE:XYou must have 10 megabytes of space on the hard disk drive on which you are installƒ.))  J ing QUAL2E for Windows. Close all open applications, including FILE MANAGER, before you start the setup program.    STEP 2.W2Start Windows, and then choose File  Run.(#  h   ~J<  STEP 3:W2Type A:SETUP (or B:SETUP if the disk is in the B drive). Click on the OK button or press ENTER.(#   STEP 4:W2You will be asked to enter the location of the directory where you would like QUAL2E to be loaded. When you confirm this or enter a new directory, the loading will begin.(#  P  cc-0W2Please note that the QUAL2E Windows interface consists of two disks.(#    STEP 5.2You are now ready to use QUAL2E.8.))T))8ԯnT.)) .N,N,   r&0  H   yxHdddyڲ  k &Chapter Title#2p}wC q#5.USING THE QUAL2E WINDOWS INTERFACE$.&sChapter Title$# `2PkCP# Once you have finished loading the software, you will be ready to access the QUAL2E Windows interface. This section details how to use the capabilities available in the QUAL2E interface. It describes the following: C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb C`JBulletsh5po x(08"$&@)+-H024P79@Ch x(08"$&@)+-H024P79@C66 ,bbh x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@Cƒb  P& 'پSubhead#:x2p}wCX#5.1XAccessing an Existing File orƒ  P  ;Opening a New FileaW'^Subhead#`2PkCP#ƒ When you first enter the QUAL2E Windows interface, you will be automatically assigned a new file. The new file name and number will appear at the top of the screen in parentheses, for example, (QAL2E###.INP).  Jp" To access an existing file, click on the  FILE option  ~J:# on the very top line, select the  OPEN option, and select the file you want from the list that appears. If you made any changes to the previously opened file, you will be asked whether you want to save the file. This is to remind you that opening a new file will overwrite the existing screens. The QUAL2E Windows interface does not allow you to open more than one input file concurrently.(.))ԌNOTE:X0The input files must be in the same location as the *.EXE files (the QUAL2E executable files). If you elect to read in an existing file from a different directory, the directory in rwhich the file is located becomes the default directory for QUAL2E. All the data files for QUAL2E must exist in the default directory. It is strongly recommended that you not save input files in any location other than the QUAL2E directory.(#  P   $  'پSubhead#:x2p}wCX#5.20File Naming Conventionsk]'^Subhead#`2PkCP# All files created by QUAL2E in Windows have a file naming convention as explained below:   1.cc-The first five characters are the function name (i.e., QAL2E); the next three digits are sequentially assigned numbers that indicate the number of the input file that you are currently creating.(#c 2.cc-The file extension indicates the type of file, as explained below:(#c h5po x(08"$&@)+-H024P79@Chp0 x(0 0File Names^^8=Description of the file  0QAL2E###.INP=QUAL2E Windows 0^^8=Interface Input file 0^^8X=This file contains all the input data required for QUAL2E in one file.(# 0 0QALGR###.INP=QUAL2E Windows 0^^8=graphics file X0^^8X=This file contains all the input data that were entered to create a particular graph.(#  The following input files are generated by the QUAL2E Windows interface when you choose to submit the QAL2E###.INP file to the model for execution. These files can be read by the interface later through an IMPORT function. These files will be in your directory.8(.))z).~.))8ԌQAL2E###.RUN QUAL2E input file   QAL2E###.DO Observed Dissolved   Oxygen data file    QAL2E###.CLI Climatology data file  `  QAL2E###.UNS Uncertainty input file    QAL2E###.VAR Variance uncertainty   input file Note that the QAL2E###.RUN file is always required for a QUAL2E execution. It is the actual input file for the program. The RUN file is generated by the QUAL2E Windows interface prior to executing the program. You have the option of importing an existing RUN file into the QUAL2E Windows interface. Always save your current file before importing a RUN file because the imported file will overwrite all the values on the screens without giving you a choice. Other input files are optional depending on the data availability and the simulation type. The DO file is used when observed DO data are available. The CLI file is needed for quasidynamic simulations. The UNS and VAR files are needed for the uncertainty analysis. Two additional files are generated by the program: QAL2E###.DOU and QAL2E###.RCH. These files remain invisible. A schematic of all the files and their uses is given in Figure 5.1. Figure 1 A Figure 1 a1(xQ'j}j'3FIG5-1.EPSxZ'%GX H  Figure 5.1 Different Files and Their Usage in a QUAL2E Model Run. Output Files These files are generated by the QUAL2E model: QAL2E###.OUT QUAL2E model   tabulated output file    QAL2E###.DOU Simulation results in   data blocks  @$   P, 'پSubhead#:x2p}wCX#5.3Saving Input Filesk'^Subhead#`2PkCP# If you opened an existing file to edit, when you choose to save the file, the existing interface input file will be overwritten with the new values unless you choose the SAVE AS option under FILE menu and assign a new file name. If you are assigning a new name to a file, remember to follow the naming conventions described in section 5.2.  ~J(   QUAL2E will ask you whether you wish to save the interface input file when you exit the interface0(.))jjj'#7/a0 functions or when you reach the last screen of an interface function. However, if you have accessed an existing file and made all the changes before reaching the last screen, you may save the input file by proceeding to the FILE option and selecting the SAVE option. Once you have completed an interface input file, you may submit it to the QUAL2E model for execution. When you submit the interface input file to the model, the input file will be validated by the Windows interface. If any error is detected (e.g., a BOD decay value of more than 2 or a latitude value outside the range of 090 degrees) during the validation, you will be informed of the error and taken to the incorrect entry so that you can correct it immediately.  x   P 'پSubhead#:x2p}wCX#5.4X0Setting Up a Default Editor for  P Viewing Output Filesqq'^Subhead#`2PkCP#(#  P  The default editor for viewing and editing QUAL2E output files is the WRITE program in Windows. However, you may choose any other data editor (e.g., EDIT.EXE) for viewing the output by selecting the Utilities menu on the top menu bar of the screen and using the Setup Output File Viewer option. The path and executable name of the output file editor should be specified under this option. If you do not have any special text editor to choose, you may check the default WRITE.EXE setup using the abovementioned procedure. After each execution of QUAL2E from the Windows interface, you will be asked whether you want to view the OUT file. If you decide to see the output, the *.OUT file will be opened using the editor of your choice. It is important to note that the QUAL2E Windows interface does not have any button or menu item that allows you to see an existing output file without running the program. You may want to use WRITE in the ACCESSORIES group of the Windows Program Manager to open, edit, and save an output file at any time. Select all the texts in the file (by clicking before the first character of the output file and dragging the mouse pointer to the end while keeping the left mouse button pressed), and choose the landscape option in Print Setup under FILE menu to avoid wraparound of text. Additionally, when the text is selected, you may switch to a fixed width font, such as Courier or Line Printer, to see the text vertically aligned. Click on the Fonts option under the Character menu to open the font selection box.L(.))jj)ec0))jjj'#7/aLԌ$a'#$0.))jjj'#7/a0Ԓ$FF(#(#FF(#(#a'#$L.))jjggg))jjj'#7/aL  P 'پSubhead#:x2p}wCX# Figure 1 a Figure 1 a5.5Submitting an Input File to the  P Modely'^Subhead#`2PkCP#  (  When you have completed the input file for the interface that you are in, select the RUN button to run the model with the input file you created. When  Figure 1 a Figure 1 you select the RUN option, all the entries in the file will be validated. If any errors are detected during the validation, QUAL2E will put up a message informing you of the type of error detected and will then take you to the prompt that is incorrect. Once all valid entries are made, the file is submitted to the appropriate model for execution. An icon will appear at the bottom of the screen for those blocks for which the QUAL2E model is called. When the processing of the interface input file is complete, QUALE2 will execute and will ask you whether you want to view the output file. If you indicate that you wish to view the output file, QUAL2E will show it using a text editor. You can annotate the results if you choose to do so. To exit from the WRITE text editor, choose Exit from the File menu or press the ALT and F keys simultaneously (ALTF); then press the X key. You will return to the interface screens.  *   P 'پSubhead#:x2p}wCX#5.6QUAL2E Windows Interface  P{ XCommands and Function KeysC'^Subhead#`2PkCP#ƒ  d(  All the Windows interface screens have a series of "buttons" immediately below the menu bar to make frequently used commands easily accessible. These buttons and the commands they represent are accessible in three ways: (1) click on a button with the left mouse key to perform the function it names, (2) press the ALT key along with the underlined letter in the button title (e.g. ALTN for the next screen), or (3) click the left mouse button on the Tool menu and select one of the options listed underneath. However, to activate the Graphics option, click on the Utilities menu instead of the Tool menu and select Graphics.  |!(  The buttons and the commands they represent are explained below:  #(   J$ hp0 x(0X hp x ,  NEXT Button This option allows you to move to the next screen in the interface. If there are incorrect values on the screen in which you are working and you attempt to move to another screen, QUAL2E will inform you of the error and allow you the option of going back (and correct(.))jjԮing the error at a later time) or correcting the error before moving on. The cursor will blink at the prompt with the incorrect entry if you elect to correct the error before moving on.(#r  J  ,rr-FF+BACK button This button allows you to move back one screen. If there are incorrect values on the screen in which you are working and you attempt to move to another screen, QUAL2E will inform you of the error and allow you the option of going back (and correcting the error at a later time) or correcting the error before moving on. The cursor will blink at the prompt with the incorrect entry if you elect to correct the error before moving on. (#r    J  ,rr-FF+INDEX Function Instead of moving backward and forward through the screens, you may use the INDEX feature to hop back and forth between screens. To access this feature, position the cursor over the INDEX button and click with the mouse button, or enter ALTN. All the screens available in this option will be displayed with the screen titles. Certain screens will be grayed out, indicating that these screens are not accessible due to the selections made on other screens. The screen that you were in when you selected the INDEX button will be highlighted in blue text.(#r    ,rr-If you wish to see the prompts that appear on each screen, press the EXPAND button at the bottom of the INDEX screen. The screen names and numbers will then include all the prompts contained in the screens. You may contract the screen again to the normal display of just the screen names and number by clicking on the CONTRACT button.(#r    ,rr-To move to the screen that you want, position the cursor over the screen number of any nongray screen and click the left mouse button. You are taken immediately to that screen. To exit the INDEX screen and return to the previous screen, click on the CANCEL button.(#r  P#   J$$  ,rr-FF+HELP button This option allows you to access the online help for the QUAL2E Windows interface. Two different types of help are available:  J~&  PromptLevel Help , which contains information on the specific prompt on which your cursor is located or on which you are entering data, and8(.))jj)i))jj8  J  General Help , which contains a general description of the QUAL2E system.ƒ  JZ , To access General Help , move the cursor to the button bar and the click on the HELP button, or press ALTH from the keyboard. A menu will appear. Select the HELP INDEX option or enter I from the key board. A window will appear with a screen title "Description of this run." Click on the Search button on the Help Screen to find a topic. You can type in the topic or scroll through the list of available topics. When you find the topic you are looking for, click the left mouse button on the topic twice and then click on the GO TO button.ƒ  J , To access PromptLevel Help , move the cursor over to the prompt on which you would like in J formation and press the F1 function key or click on the HELP button.ƒ    , When you are finished viewing Help, exit the Help window either by entering ALTF, X from the keyboard or by double clicking the left mouse button on the icon located at the top left corner of the window. You will be returned to the screen in which you were previously working.ƒ     J  ,  CALC button This option allows you to access the Calculator Function within Windows, should you require the use of a calculator at any screen in QUAL2E. You may invoke a scientific calculator by clicking on the View menu of the calculator and selecting Scientific.ƒ  z   JN  ,  TOP button This option allows you to move to the first screen in QUAL2E from any screen without having to use the INDEX function.ƒ     J|  ,  RUN button This option allows you to submit an interface input file that you have created to the QUAL2E model for execution. If incorrect entries are present in the file when you click on this button, QUAL2E will inform you that you have incorrect values and will take you to the appropriate prompt so that you can correct the value and resubmit the file.ƒ  %   J&  ,  RESTORE button This option allows you to restore the default values that were in the file before you started making changes for a screen. This is an option that allows you to replace pre(.))jjԮexisting values on a particular screen without having to exit the system or go back to every variable that you changed. However, if you move to another screen, all the changes become permanent.(#r  J  ,rr-FF+GRAPHICS button This option allows you to graph the QUAL2E output results. There are two types of graphs: flow vs. distance and pollutant concentrations vs. distance along the river system. The graphics routine also has the capability of drawing the network connections of the river system.(#r  P X hp xFD^V"$'^)+.F'پSubhead#:x2p}wCX#5.7DD/Import File Option in QUAL2Ey'^Subhead#`2PkCP# FD^V"$'^)+.X hp xF The import file option allows you to access existing input files that are generated from other model runs. The QUAL2E interface can import all five input files: .RUN, .DO, .CLI, .UNS, and .VAR files. (See Section 5.2, File Naming Conventions.) The IMPORT option can be used to access any one of these five types of files. The filename indicates the type of data that the file contains. For example, if you import a file with a DO extension, it will replace all data on the Observed Dissolved Oxygen Screen. This option allows you to mix and match different types of data. The IMPORT option can be selected from the menu bar at the top of QUAL2E interface window. Click on IMPORT to see a list of the five types of import files. Once you select the file type you want, you will see a window similar to the Windows Open File option, except that only one type of file will be listed. Move your cursor over the file that you would like to import and click twice in quick succession to bring the data into the QUAL2E interface. If you click only once on a filename, a short description of the file will be shown in a box at the top of the window.  Pc X hp xFcDV"$'^)+.F'پSubhead#:x2p}wCX#5.8DD/How to Use the Graphics Routine'^Subhead#`2PkCP# The Graphics Program can be accessed by clicking on the Graphics button with the mouse. A window similar to the QUAL2E Windows interface will appear. You can select two types of graphics: display of reaches and graphs. When a QUAL2E output file is selected, you can click on the REACHES button to view the entire stream network. There two options for plotting graphs: flow vs. distance and concentration of a water quality constituent vs. distance. The graph plotting option is provided to allow you to represent the results in easytounderstand formats. 8(.))jj)))jj8ԌThe steps that you should follow are explained below: FcDV"$'^)+.X4hp xFSTEP 1.44The graphics option is accessible through a GRAPHICS button on the third line from the top of the QUAL2E Windows interface screen. It is also accessible using the Graphics option under the Utilities menu (ALTU, G).ƒ4    STEP 2.44The Graph Selection screen will appear. You must first select a QUAL2E output file. To see a list of the files that exist in your default directory, click on the arrow to the right of the filename box. From the pulldown menu, select the file that you would like to use as input for graphics.ƒ4   STEP 3.44Select the type of graph from the list provided. Then specify a starting reach and an ending reach. If the starting reach and the ending reach are not in the same branch or the ending reach is not located downstream from the starting reach, you will see a message informing you that you need to make another selection.ƒ4    STEP 4.44Click the RUN button when you have made all the selections on the first screen. You will see a box informing you that the selections you made will be saved under the filename shown at the top of the screen (e.g., QALGR001.INP).ƒ4    STEP 5.44Next you will see a list of files in a box with the title GRAPHIC SELECTION. The file that was just generated will be selected. You may select up to four graphs from the list presented. Choose OK to draw the graphs.ƒ4   STEP 6.44The graphs that you selected will be drawn on the screen. Once drawn, you have two options:ƒ4  #  X4hp xX4" hp x44PRINT:" " To print the graphs(s) on the screen, select the GRAPH option at the top of the screen and select PRINT. The file will be printed to the default Windows printer.ƒ" x(.))jjԌ  02EDIT:9This option allows you to copy the image and paste it to any Windows application through the Clipboard. To do this, click on EDIT at the menu bar and select COPY. Then switch to the target Windows application (e.g., WordPerfect) and choose Paste or Paste Special to complete the cutandpaste function.(# The features and limitations of the graphics program include: C`JBulletsX4" hp xh x(08"$&@)+-H024P79@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:@C.,1h x(08"$&@)+-H024P79@CX4 hp x (#%'0*,.8135@8:V"$'^)+.Fcc-1.00.5 gm/m3day for Dirty River above Clear cc-0CreekL")$.))jj)$b$))jjj'#B$LԌ Figure 1  Figure 1  2.1.0 gm/m2day for Pond   ~J 1#`2PkCP#3.I;0.5 gm/m2day for Dirty River below Clear Creekƒ Sediment oxygen demand data are entered on a screen titled as "BOD and DO reaction rate constants," shown in Figure 6.3(f).  ~J E.1Point source (or discharge) and withdrawal data  ~J 11.I;Point source: Q = 0.48 m3/s, DO = 4.0 mg/l,  ~J CBODU = 5.0 mg/l, T = 25.0$Cƒ 1  ~J( 12.;Withdrawal: Q = 0.5 m3/s These data are entered on the screen shown in Figure 6.3(c).  ~J F.1Reaction rates  ~J 11.I;The biooxidation rate for CBODU was determined from longterm BOD tests:ƒ  ~J Fc]>V"$'^)+.X$ hp x F1X<©CFor all reaches of the Dirty River, K1 = 0.6 per day.ƒ  ~J 1X<©CFor all reaches of Clear Creek and Bull  ~JP Run, K1 = 0.6 per day.ƒ  ~J 12.X<The BOD settling rate is zero, except in the pond where it is 0.1 per day.ƒ  ~J8 13.X<The reaeration coefficient is to be calculated by the O'Connor and Dobbins method (Option 3) for all reaches of the Clear River and Bull Run, and it is to be computed by the Thackston and Krenkel method (Option 5) in all reaches of the Dirty River.ƒ  ~J 14.X<Temperature adjustments to the reaeration rate coefficient are to be made using the O'Connor and Dobbins theta value (1.0159).ƒ Decaying and settling rates of biochemical oxygen demand are entered on the same screen as for SOD. Temperature adjustments to the rate coefficients are made in the Temperature Correction Factors screen, shown in Figure 6.3(h).  ~J% G.1Temperature information  ~J' 11.X<Evaporation coefficient: Use Lake Hefner equation AE = 0.0 and BE = 0.0000056.ƒ (%.))jjԌ ~J cc2.Dust attenuation coefficient = 0.13  ~J cc3.XLocation of basin: metropolis; longitude = 83.3, standard meridian = 75, Latitude = 42.5, Basin elevation = 150 m(#  ~J cc4.XLocal climatology: cloudiness = 0.25, Dry  ~Jx bulb temperature = 25.0$C, wet bulb tem ~J@ perature = 20.0$C, atmospheric pressure = 980 mbar, wind speed = 2.5 m/s.(# These data are provided in the Geographical and Climatological data screen, as shown in Figure 6.3 (i). The steps that you must follow for this example are explained in detail below:  ~J X$ hp x X hp xSTEP 1.44Select the QUAL2E Windows interface by clicking twice on the QUAL2E icon.(#4  ~Jh STEP 2.44Select an existing file called QAL2E001.INP in the QUAL2E interface by selecting the File option, followed by the Open option. The file will be loaded into the QUAL2E interface. A total of 24 screens are available to you when you click on the INDEX button that illustrates the overall structure of the input file. (The other screens are grayed out due to choices made in the sample run.) Normally, QUAL2E requires you to provide information on the reach system of the study area, simulation control variables, functional data, and climatology data. Since you are retrieving an existing input file, you are not required to do this.(#4  ~J STEP 3.44Examine the input file in detail and familiarize yourself with it by using the NEXT and BACK buttons to move through the screens and the HELP button to obtain general and detailed information about the interface and specific prompts. Areas on which you should focus are given below:(#4  H# cc44 How to describe a complete stream  H$ system (#4 cc44The first three screens are most important because the majority of the data on the following screens are dependent upon the information given by Screens 13. First, you must enter the number of reaches in8(%.))jjh)%N%N))jj8 the system on Screen 1. If you do not enter this number, the interface will not let you access other screens. Then, you are required to give the reach name, beginning and ending river miles or kilometers for each reach, an indication of the headwaters, and an element length. The sequence of the reaches that you provide on Screen 2 should always be entered from the most upstream reach to the most downstream reach. The element length is a computational unit that has to be divisible by all reaches. The information on Screen 2 will be used to display the reach connections. Remember that river reaches and computational elements are the basis of most data input. It is suggested that you draw a reach network system before entering the data.ƒ  H  1AHow to use the unit conversion 1AThe unit selection appears on the first screen. The QUAL2E interface permits two sets of units: metric and U.S. units. Metric units, for example, are selected for Example 1 (QAL2E001.INP). If you want to change to U.S. units, you can simply click on U.S. units. Then a windows message will ask you whether you would like to convert all the variables from metric to U.S. units or just change the unit titles for the variables without converting the variables' values. At this point, you need to choose YES, NO, or Cancel.ƒ 1ASelect YES to convert all the variables from one unit to another. Select NO to change the unit titles for the variables' required units. Select Cancel to return to the original unit selection.ƒ 1ACertain important screens are detailed below.ƒ  H`" 1 AScreens 1 ƒ 1AThe stream simulation is set to be steady state. Metric units are chosen for the model input and output. Since there is no uncertainty analysis involved for this example, Screens 2124 are grayed. Similarly, Screen 10 is grayed because flow augmentation is not applied. The number of reaches in the stream system is six. ƒ(&.))jjԌ H ԙ cc44Screen 4 (#4 cc44This screen lists 15 water quality constituents that can be simulated. Select the constituents that you want to simulate. Three constituents are selected in Example 1.(#4  Hx cc 44Screen 5 (#4 cc44Screen 5 defines the basin geographic information, temperature correction option, climatological data, and DO/BOD plot. You can define the temperature coefficients or use the model default values. Climatological data can be varied from one reach to another or specified as constant values for all reaches. The DO/BOD plot is an option for the model input. It is applied when a user has observed DO data and wants to calibrate the model to compare the predicted DO with the observed DO. You can either select an existing DO file, which contains the data, or indicate the number of points for each BOD/DO plot and enter the measured data on Screen 7. Example 1 chooses to select an existing DO input file, called WRKSHOP1.DO, and the data can be seen on Screen 7.(#4  ~J STEP 4.44Submit the QUAL2E interface input file to the QUAL2E model for execution by clicking on the RUN button. An icon appears at the bottom of the screen with the words QUAL2E MODEL EXECUTION. When the processing is complete, a message appears: "QUAL2E completed. Do you want to view the output file?" Select OK to view the output using the default editor. After viewing the tabulated output, press ALTF and X in sequence to return to the QUAL2E main menu. (#4  ~J STEP 5.44You might also want to plot a QUAL2E graphic. Click on the Graphics button. Select a QUAL2E output file (e.g., QAL2E001.OUT). Once you have chosen the QUAL2E output, click on the Reaches button to view a network diagram of the stream network and computational elements. This plot should be similar to Figure 6.2. If you want to make a hard copy for the plot, you can use the Print option to send the plot directly to the8(&.))jjh)&&P))jj8 printer or use the Edit and Copy/Paste option to place the graph in another Windows package such as the Clipboard.ƒ 1ATo graph flow vs. distance, click on flow vs. distance as the type of graph, and then define the starting reach as 1 and ending reach as 6. Click the Run button to view the graph.ƒ  P  1ATo graph water quality constituents, select water quality constituents as the type of graph and define the starting and ending reaches. When you click on Run, a Pollutant Selection screen will appear with a list of pollutants. Select the pollutants you want to plot and click on Run again. A window will list all the graphs in the default directory. Select the graphs you would like to see and choose OK. QUAL2E Graphics allows you to draw up to four graphs on the same screen. To do this, you should create different graphs and then select up to four graphs that you want to see on one screen. An example QUAL2E graph is provided in Figure 6.4.ƒ  P   P X hp xFcD>V"$'^)+.F'پSubhead#:x2p}wCX#6.29Example 2"Withlacoochee River  P QUAL2E and Uncertainty Analysis\'^Subhead#`2PkCP#ƒ  P  FcD>V"$'^)+.Fc4>V"$'2(^)+.FF Figure 1   Figure 1 %(xXjr0ddFIG6_4.TIF(x`'%8aM H  C  Figure 6.4 QUAL2E Graph from Example 1. -(xU01*ddFIG6_5.TIF(x`'%08aU H  C  Figure 6.5 Phosphorus Concentration vs. Distance.   Figure 1  Figure 1 This exercise demonstrates how to use the uncertainty analysis option. A QUAL2E base run is performed first, followed by an uncertainty run. The Withlacoochee River basin is located in Florida and is a simple reach system containing 11 reaches. Two point source loads are applied in Example 2. Six water quality parameters are simulated: temperature, BOD, algae, DO, phosphorus, and nitrogen. In the uncertainty analysis, the First Order Error analysis is used and a default input perturbation of 5 percent is used for computing sensitivity coefficients. In addition, the variance of each input variable is given on Screen 23.  "P  The steps that you must go through for this example run are explained below:  r%P   ~J& STEP 1.ASelect the QUAL2E Windows Interface option from the main QUAL2E menu. Choose FILE option, followed by the Open option. A list of QUAL2E input files@('.))jj!j'#('#Y/(@ will appear. Select a QUAL2E interface file, QAL2E002.INP. Since an uncertainty analysis is involved, you will see Uncertainty analysis is selected on Screen 1.(#4  ~J STEP 2.44Familiarize yourself with this input file and the screens in the QUAL2E option by moving through the screens using the NEXT, BACK, or INDEX option.(#4  ( cc44You can easily change a number of rows in a column using a feature available in array screens of the QUAL2E Windows interface (screens where the same variable requires one or more rows of entries). If you click on the variable in these screens, you will be able to add, subtract, multiply, or divide for any single value or range of values for this variable. You can therefore change all zero values for a variable to a single default by adding the default value that you want to all the zero values in the array.(#4  (   ~J STEP 3.44Submit the QUAL2E input file to the QUAL2E model for execution by clicking on the RUN button. An icon will appear at the bottom of the screen with the words QUAL2E MODEL EXECUTION. When the processing is complete, the output will be shown in the default output file viewer (i.e., default editor). View the output carefully.(#4  ~J  ( STEP 4.44If you want to draw a QUAL2E graphic, click on the Graphics Button. A QUAL2E graphic for Example 2 is shown in Figure 6.5. To exit from QUAL2E, press ALTF for File and then X for Exit. (#4  (   P Fc4>V"$'2(^)+.X hp xF'پSubhead#:x2p}wCX#6.3XExample 3"Dynamic/Diurnal(#  P cc;Simulationl'^Subhead#`2PkCP#(#  !(  This example simulates a simple river system with a total of five reaches and nine water quality constituents for a QUAL2E run. This is a dynamic/diurnal simulation with a total simulation of 60 hours and a time step of 1 hour. Since it is a dynamic simulation, the climatological data are required at regular time intervals over the course of the simulation. There is an existing climatological input file available for input. The input file, DIURNAL.CLI, can be read\('.))jj)''))jj!j'#('#Y/(\ $'#$@(.))jj!j'#('#Y/(@Ԓ$FF(#(#FF(#(#'#$\(.))jj(())jj!j'#('#Y/(\Ԓthrough the Import function. In this example, the downstream boundary conditions are known and specified in the interface input file. The model solution will, therefore, be constrained to match the known concentrations. The steps that you must follow for this example are explained in detail below:  ~J X hp xFc%>V"$&2(^)+.FSTEP 1.@Select the QUAL2E Windows Interface option from the main QUAL2E menu. Next, open the QUAL2E interface file, QUAL2E003.INP. The file will be loaded into the QUAL2E interface. Move through the screens and familiarize yourself with this option. Use the help information available to you through the HELP button to answer any questions you might have about any prompts.ƒ  ~J STEP 2.@Go to Screen 3 for the computational element setup. The entire system conƒh).))jj sists of a total of five reaches, three headwaters, two junctions, and one downstream element. There are no point source loads or withdrawals in the system, so the fields on Screen 3 that are not grayed represent the standard elements.  ~J STEP 3.%%You may use the IMPORT function on the main menu bar at the top of the QUAL2E window. When you select the IMPORT option, you will see a list of five types of input files. Choose the CLI file type and select the DIURNL.CLI file from the list presented. The climatological data with 3hour intervals will be entered on Screen 20. Click INDEX to move to Screen 20 and check the climatic data. (#%  ~JH STEP 4.%%Next, click on the RUN button. The output file will be displayed when it is ready. If you want to plot the model results, click on the Graphics button.(#% 8h).))jj0))))jj8  H Ԉ#Fc%>V"$&2(^)+.X` hp xF'پSubhead#:x2p}wCX#hy'^Subhead#`2PkCP# APPENDIX A:  H  QUAL2E WINDOWS INTERFACE DESIGN ă  This appendix contains the structures and variables for the QUAL2E Windows interface. Table A.1 provides input variables and the screen sequence in QUAL2E. There are a total of 24 screens in the QUAL2E interface. The input screen sequence (see Table 3.1) reflects the overall structure of the QUAL2E model. Screen numbers are assigned to cover all the general input requirements discussed previously. Table A.1 identifies the variables for each screen. This table contains the following for QUAL2E:  ~J X` hp xX' hp x''41.AInput code used in QUAL2E  ~J ''42.AData type  ~J ''43.ADescription of the variable  ~J` ''44.AQUAL2E variable  ~J( ''45.AScreen number (SCR No.)  ~J ''46.AControl number (CON No.)  ~J ''47.AControl type (CON Type)  ~J ''48.AItem, type, range, default, and unit Input code and data type are used in the uncertainty analysis part of QUAL2E. They are listed here for  ~J proper crossreferencing of the variables. Refer to Appendix B of The Enhanced Stream Water Quality  ~J Models QUAL2E and QUAL2EUNCAS: Documentation and User Manual for more details. Screen number, control number, and control types are used internally by the QUAL2E Windows interface. Each variable has a unique control number on a particular screen in the interface. For example, if you refer to the first page of Table A.1, a variable NUMB is defined as Number of reaches, which is the last control on the first screen. In the QUAL2E###.RUN file it is the 10th card of Data Type 1; i.e., if you were to prepare an input file (QUAL2E###.RUN) without using the interface, you would enter Number of reaches in the 10th row of the group named Data Type 1. The NUMB's type is integer, its range is from 1 to 50, and the default should be 1. These data are used by the QUAL2E model. A total of five input files may be needed for a QUAL2E run. Refer to Section 5.2 to see which files are required and which are optional. p*.))jj  H #J2PkQP# Table A.1 Input Variables and Screen Sequence in QUAL2E ă oXyx dddx yyx@dddjx y  H #`2PkCP# vTable A.1 (continued) ăo  A``x @@@@ a.+Hr|XDI &k      & : @5'u'hh:  sD #V2PkCP# Input  sD code < sD  Data Type< sD Description <QUAL2E kVARIABLE<SCR<CS<0CT<Item<FType <Range <RDefault <$!Units   : @5'u'hh: 8#B2PQP#1Gk1QUAL2E Simulation1m1C11111 1  1Q! 1/#  < : @5'u'hh:  &Gk&Description of this run&TITLE01,02&1&b1&1&&C160 &  &Q! &/#  1 : @5'u'hh:  F1Simulation TypeSTEA1b25  Q! /#  & : @5'u'hh: 8GkSteadystatem1b36    Q! /#   : @5'u'hh: 8GkDynamicm1b46   Q! /#   : @5'u'hh:  F1UnitINPU1b55   Q! /#   : @5'u'hh: 8 Gk U.S. units m 1 b6 6       Q!  /#   : @5'u'hh: 8 Gk Metric m 1 b7 6        Q!  /#    : @5'u'hh: 8 Gk Uncertainty analysis m 1 b8 4       Q!  /#    : @5'u'hh:   F1 Flow augmentation FlOW 1 b9 4        Q!  /#    : @5'u'hh:   F1 Trapezoidal channels TRAP 1 10 4        Q!  /#    : @5'u'hh: 8F1Max. IterationsMAXI1111 1  30 /#    : @5'u'hh:  F1Time step (hours)TIME1121F 0  0.0 /#   : @5'u'hh:  F1Starting day of simualtionSTAN1131I 1366 X 180 /#   : @5'u'hh:  F1Total simulation length (hours)MAXI1141F    0.0 /#   : @5'u'hh: 8F1Time increment for RPT2 (hours)CmC1C15C1CCF C0 C 0.0 C/#   : @5'u'hh: 8Gk8Stream system8818 8588 8  8Q! 8/#  C : @5'u'hh: 8-F1-Number of reaches-NUMB-1-16-1--I -150 - 1.0 -/#  8 : @5'u'hh: 8"Gk"%"m"C""1"" " "Q! "/#    -  : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC1   /#    "  : @5'u'hh: 8 Gk Stream Reach System m C  1      Q!  /#   : @5'u'hh: 8F2REACH NO.m2b11I 050 Q! /#    : @5'u'hh: 8F2REACH NAMEm2b21C15  Q! /#   : @5'u'hh: 8F2BEGIN RIVER \n (mile) or (km)m2b31F 0  0.0 mile,km   : @5'u'hh: 8F2END RIVER \n (mile) or (km)m2b41F 0  0.0 mile,km   : @5'u'hh: 8GkHEADWATERm2b54    Q! /#   : @5'u'hh: 8F1DELTAX \n(mile) or (km)m2b61F   1.0 /#   : @5'u'hh: 8Gk%mC1   Q! /#      : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC1  Q! /#(    ( : @5'u'hh: 8 Gk *** shrink column width, 5(422) has the same combolist`!`!1`!`! `!  `! `!/#"   " : @5'u'hh: 8U"GkU"Computational Element U"mU"CU"U"1U"U" U"  U"Q! U"/#  `! : @5'u'hh: 8J#F4J#REACH NO.J#mJ#3J#b1J#?J#J#I J#  J#Q! J#/#  U" : @5'u'hh: 8?$F4?$TOTAL \nELE?$m?$3?$b2?$?/cal$$I $220 $Q! $/#  J# : @5'u'hh: 8%F4%1%m%3%b3%3%%C4 %  %Q! %/#  $ : @5'u'hh: 8&Gk&Headwater&m&3&&1&1& &1 &Q! &/#  % : @5'u'hh: 8'Gk'Standard'm'3''1'2' '2 'Q! '/#  & : @5'u'hh: 8(Gk(Junction(m(3((1(3( (4 (Q! (/#  ' : @5'u'hh: 8)Gk)Point source)m)3))1)4) )6 )Q! )/#)+.))jj  ( : @5'u'hh: 8GkWithdrawalm315 7 Q! /#   : @5'u'hh: -11 8GkDamm316 2 Q! /#   : @5'u'hh: 8F42m3b43C4   Q! /#   : @5'u'hh: 8GkStandardm311 2 Q! /#   : @5'u'hh: 8GkU/S junctionm312 3 Q! /#   : @5'u'hh: 8uGkuDownstreamumu3uu1u3u u5 uQ! u/#   : @5'u'hh: 8jGkjPoint sourcejmj3jj1j4j j6 jQ! j/#  u : @5'u'hh: 8_Gk_Withdrawal_m_3__1_5_ _7 _Q! _/#  j : @5'u'hh: 8T GkT DamT mT 3T T 1T 6T  T 2 T Q! T /#  _ : @5'u'hh: 8I F4I 3I mI 3I b5I 3I I C4 I  I Q! I /#  T  : @5'u'hh: 8> F4> 4> m> 3> b6> 3> > C4 >  > Q! > /#  I  : @5'u'hh: 83 F43 53 m3 33 b73 33 3 C4 3  3 Q! 3 /#  >  : @5'u'hh: 8( F4( 6( m( 3( b8( 3( ( C4 (  ( Q! ( /#  3  : @5'u'hh: 8F4...m3... C4  Q! /#  (  : @5'u'hh: 8F420m3223C4  Q! /#   : @5'u'hh: 8Gk%m 1   Q! /#   : @5'u'hh: 8GkWater Quality SimulationmC1  Q! /#   : @5'u'hh:  GkTemperatureTITLE064b14    Q! /#   : @5'u'hh:  GkBODTITLE074b24   Q! /#   : @5'u'hh:  GkAlgaeTITLE084b34  Q! /#   : @5'u'hh:  GkPhosphorus cycleTITLE09,104b44    Q! /#   : @5'u'hh:  GkNitrogen cycleTITLE11,124b54    Q! /#   : @5'u'hh:  GkDissolved OxygenTITLE134b64    !  /#   : @5'u'hh:  GkFecal coliformTITLE144b74    !  /#   : @5'u'hh:  GkConservative constituent 4b84    !  /#   : @5'u'hh: 8GkNumber of constituentsm4b91 I 03 Q! /#   : @5'u'hh:  GkConstituent #1TITLE034101 C4   !  /#   : @5'u'hh: 8GkUnitm4111 C4  Q! /#   : @5'u'hh:  xGkxConstituent #2xTITLE04x4x12x1x xC4 x x!  x/#   : @5'u'hh: 8mGkmUnitmmm4m13m1m mC4 m mQ! m/#  x : @5'u'hh:  bGkbConstituent #3bTITLE05b4b14b1bbC4 b bQ! b/#  m : @5'u'hh: 8WGkWUnitWmW4W15W1WWC4 W WQ! W/#  b : @5'u'hh:  L GkL NonconservativeL TITLE015L 4L 16L 4L L   L  L Q! L /#  W : @5'u'hh: 8A!GkA!Constituent nameA!mA!4A!17A!1A!A!C4 A! A!Q! A!/#  L  : @5'u'hh: 86"Gk6"Unit6"m6"46"186"16"6"C4 6" 6"Q! 6"/#  A! : @5'u'hh:  +#F1+#Specified d/s boundary constituent concentrations #FIXE#4#19#4## # #Q! #/#  6" : @5'u'hh: 8$Gk$BOD5$m$4$20$4$$ $ $Q! $/#  # : @5'u'hh: 8%F1%5day ultimate BOD conversion K coeff.&m&4&21&1&&F &  &. 0.23 &   $ : @5'u'hh: 8x'Gkx'%x'mx' x'x'1x'x' x' x'Q! x'/#&,.''  & : @5'u'hh: 8GkGeographical and Climatological Datam       Q! /#   : @5'u'hh:  F1Latitude (deg)LATI5b11F10.0 090  34 DEG   : @5'u'hh: 8F1Longitude (dge)m5b21 F10.0 0180  85 DEG   : @5'u'hh:  F1Standard meridian (deg)STAN5b31 F10.0 0180  75 DEG   : @5'u'hh:  F1Basin Elevation (ft)ELEV5b41 F ܩ40012000 7 1000 7ft   : @5'u'hh: 8,F1,Dust attenuation coeff,m,5,b5,1, ,F ,0.050.15 . 0.06 /#  7 : @5'u'hh: 8F1Evaporation coeffm55  Q! /#   :} @5'u'hh: ECOEFAE F1 AE   5 b6 1   F  0.00060.0068  0.0010 3  (ft/hr)/(inHg)   :} @5'u'hh: 8y Gky %y my 5y y 1y y F y 0.000005 0 0.0000X 094 0 (m/hr)/mbar    : @5'u'hh: 8% Gk% %% m% 5% % 1% %  % 0.000062  Q!  /# c 0  : @5'u'hh: ECOEFBEF1BE 5b71 F 0.00016 0.0001 6 (ft/hr)/inHgmphc    : @5'u'hh: 84Gk4%4m4544144F 40.000272 Q! /# c ? :} @5'u'hh: 8Gk%m51F 0.0000032 0.0000X 032 (m/hr)/mbarm/sc   :} @5'u'hh: 8CGkC%CmC5CC1CCF C0.0000055 Q! /#  N : @5'u'hh: 8GkTemp correction factorsm5b85  Q! /#   : @5'u'hh: 8GkDefaultm5b96  Q! /#   : @5'u'hh: 8GkUser specifiedm5106  Q! /#   : @5'u'hh: 8GkClimatological datam5115  Q! /#   : @5'u'hh: 8GkReach variable tempm5126  Q! /#   : @5'u'hh: 8GkGlobal valuesm5136  Q! /#   : @5'u'hh: 8GkClimatological input filem5143  Q! /#   : @5'u'hh: 8GkOutput printm5 5  Q! /#   : @5'u'hh:  F1SummaryWRIT5154    !  /#   : @5'u'hh:  F1Climatological data printoutPRIN5164    Q!     : @5'u'hh:   F1 DO and BOD plot PLOT 5 17 4        Q!      : @5'u'hh: 8v!Gkv!# of DO/BOD plotsv!mv!5v!18v!1v!v! v!150 v!Q! v!/#    : @5'u'hh: 8k"Gkk"Observed Dissolved Oxygen input file"#m"#5"#19"#3"#"#C12 "# "#Q! "#/#  v! : @5'u'hh: 8$Gk$$m$C$$1$$ $ $Q! $/#  "# : @5'u'hh: 8 %Gk %*** list all the reach numbers %m %C % %1 % %  %  %Q!  %/#"   $" : @5'u'hh: 8&Gk&*** 7(18) determines # of rows & 1(16)+1 determines # of columns&1&& &  &Q! &J%-.''(     %( : @5'u'hh: 8GkReach Numbers for DO/BOD to be PlottedC1  Q! /#      : @5'u'hh: 8GkPLOTm6b17I 050 Q! /#   : @5'u'hh: 8Gk#LOCm6b21I  Q! /#   : @5'u'hh: 8GkR1m6b34  Q! /#   : @5'u'hh: 8GkR2m6b44  Q! /#   : @5'u'hh: 8GkR3m6b54  Q! /#   : @5'u'hh: 8Gk...m6...4  Q! /#   : @5'u'hh: 8GkR50m6524  Q! /#   : @5'u'hh: 8Gk m 1  Q! /# c  :} @5'u'hh: 8 Gk *** Array screen, load values from 5(18) if DO input file is available file is available    1      Q!  /#c   :} @5'u'hh: 8 Gk *** or create Observed DO input file  m C  1      Q!  /#    : @5'u'hh: 8 Gk Observed Dissolved Oxygen DataXmXCXX1XX X XQ! X/#    : @5'u'hh: 8MGkMPLOTM M7Mb1M3MMI M MQ! M/#  X : @5'u'hh: 8BGkBRIVER LOCATION \n (mile) or (km)m7b21F  Q! mile,km  M : @5'u'hh: 8GkMIN DO \n (mg/l)m7b31F 0.025.0  0.0 mg/l   : @5'u'hh: 8GkAVE DO \n (mg/l)m7b41F 0.025.0  0.0 mg/l   : @5'u'hh: 8GkMAX DO \n (mg/l)m7b51F 0.025.0  0.0 mg/l   : @5'u'hh: 8Gk%m 1  Q! /#      : @5'u'hh: 8Gk*** Required only algae, N, or P are simulatedyCy y y y y y y/#      : @5'u'hh: 8nGknGlobal Kineticsnmn n n nn n nQ! n/#  y : @5'u'hh: 8cGkcOxygen uptake bycmc8c c5cc c cQ! c/# c n : @5'u'hh: NH3OXYUPE1AAmmonia oxidation (mg O/mg N)O_UP8b11F 3.3.5 . 3.43 mg O/mg Nc c c : @5'u'hh: NO2OXYUPrE1ArNitrite oxidation (mg O/mg N)rmr8rb2r1rrF r1.1.2 r. 1.14 rmg O/mg Nc   : @5'u'hh: 8E1AAlgaem85  Q! /#  ) : @5'u'hh: AGYOXYPRE1AOxygen production by growth (mg O/mg A)O_PR8b31F 1.41.8  1.6 mg O/mg A  c    : @5'u'hh: AGYOXYUPv!E1Av!Oxygen uptake by respiration (mg O/mg A)v!Cv!b8v!4v!1v! v!F v!1.62.3 v!*!2.0mg +"O/mg .&#A c     : @5'u'hh: AGYNCON#E1A#Nitrogen content (mg N/mg A)#N_CO#8#b5#1##F #0.080.09 #0.085 #mg N/mg A  -" : @5'u'hh: AGYPCON%E1A%Phosphorus content (mg P/mg A)%m%8%b6%1%%F %0.0120.015 %0.014 %mg P/mg A  # : @5'u'hh: AGYGROMX1'E1A1'Max. specific growth rate (1/day)1'ALG_1'81'b71'11'1'F 1'1.3. 1' 2.5 1'/#%..''  % : @5'u'hh: AGYRESPRE1ARespiration rate (1/day)m8b81F 0.050.5 . 0.05 /#   : @5'u'hh: NHALFSATXE1AXNitrogen half saturation coeffXN_HAX8Xb9X1XXF X0.020.4 X 0.2 X/#   : @5'u'hh: PHALFSATE1APhosphorus half saturation coeff 8101F 0.020.1 . 0.04 /# c X : @5'u'hh: AGYEXTLNE1ALinear coeff.LIN_8111F 0.0.003 0.0007 5 (1/ft)/(ugchal/l)c c  : @5'u'hh: AGYEXTNL E1A Nonlinear coeff. m 8 12 1  F  0.0.003   0.0  (1/m)/(ugchal/l)c  g : @5'u'hh: 8 Gk Light m 8  5       Q!  /#    : @5'u'hh: 8 E1A Light Function LIGH 8 13 3  I  13   1  /#    : @5'u'hh: 8 E1A Half saturation m 8     1     Q!  /#    : @5'u'hh:   E1A Simth's function m 8     2     Q!  /#    : @5'u'hh: 8E1ASteele's functionm8 3  Q! /#    : @5'u'hh: 8E1ASaturation coeff.m8141F 00.15 . 0.11 BTU/ft2min   : @5'u'hh: 84Gk4%4m4844144 400.04 4. 0.03 4Langleys/min  ? : @5'u'hh: 8E1AIntensitym8151F 01500  1300 BTU/ft2min   : @5'u'hh: 8Gk%m81 0400.0 350.0 Langleys/min   : @5'u'hh: 88E1A8Light ave. from sloar radiation8m888168388I 814 8 2 8/#  C : @5'u'hh:  -E1A-Dailytemp-DAIL-8- - -1- - -Q! -/#  8 : @5'u'hh: 8"E1A"Dailydata"m"8" " "2" " "Q! "/#  - : @5'u'hh: 8E1A24 hourlytempm8  3  Q! /#  " : @5'u'hh: 8 E1A 24 hourlydata m 8     4     Q!  /#   : @5'u'hh: LAVGFACTE1ALight averaging factorm8171F 0.851.0 . 0.92 /#    : @5'u'hh: NUMBDLHdE1AdNumber of daylight hoursdNUMBd8d18d1ddF d4.18.0 d. 14.0 d/# c  :} @5'u'hh: TDYSOLARE1ADaily radiation (BTU/ft2) or (Langleys)m8191F 0.1500. 1300.0 BTU/ft2,Langleysc  d :} @5'u'hh: 8 E1A Light nutrient interactions m 8 20 3  I  13   2  /#   : @5'u'hh:  !E1A!Multiplicative!ALGY!8! ! !1! ! !Q! !/#    : @5'u'hh: 8"E1A"Limiting nutrient"m"8""1"2" " "Q! "/#  ! : @5'u'hh: 8#E1A#Harmoni mean#m#8##1#3# # #Q! #/#  " : @5'u'hh: APREFNH3G%E1AG%Algal preference factor for NH3G%mG%8G%21G%1G%G%F G%0.10.9 G% 0.9 G%/#  # : @5'u'hh: A/TFACT&E1A&Solar radiation factor&ALG/&8&22&1& &F &0.40.5 &. 0.44 &/#%/.''  G% : @5'u'hh: NHIBFACTE1ANitrification inhibition coeff.m8231F 0.10.0 . 10.0 /#   : @5'u'hh: 8Gk%m      Q! /#   : @5'u'hh: 8GkTemperature Correction Factorsm     Q! /#   : @5'u'hh: TC/BODDCBE1BBBOD decayBmB9Bb1B1BBF B11.1 B1.047 B/#   : @5'u'hh: TC/BODSTE1BBOD settlingm9b21 F 11.1 1.024 /#  B : @5'u'hh: TC/BEAERE1BReaerationm9b31F 11.1 1.024 /#   : @5'u'hh: TC/SODF E1BF SOD uptakeF mF 9F b4F 1F F F F 11.1 F 1.060 F /#   : @5'u'hh: 8; Gk; Nitrogen; m; 9; ; 5; ;   ;   ; Q! ; /#  F  : @5'u'hh: TC/NH2DC E1B Organic N decay m 9 b5 1  F  11.1  1.047  /#  ;  : @5'u'hh: TC/NH2STE1BOrganic N settlingm9b61F 11.1 1.024 /#    : @5'u'hh: TC/NH2ST?E1B?Ammonia decay?m?9?b7?1??F ?11.1 ?1.083 ?/#   : @5'u'hh: TC/NH3SCE1BAmmonia sourcem9b81F 11.1 1.074 /#  ? : @5'u'hh: TC/NO2DCE1BNitrite decaym9b91 F 11.1 1.047 /#   : @5'u'hh: 8GkPhosphorusm9 5    Q! /#   : @5'u'hh: TC/PRGDC8E1B8Organic P decay8m89810818 8F 811.1 81.047 8/#   : @5'u'hh: TC/PRGSTE1BOrganic P settlingm9111F 11.1 1.024 /#  8 : @5'u'hh: TC/PO4SCE1BDissolved P sourcem9121F 11.1 1.074 /#   : @5'u'hh: 8GkAlgaem9 5  Q! /#   : @5'u'hh: TC/ALGRO1E1B1Growth1m191131111F 111.1 11.047 1/#   : @5'u'hh: TC/ALRESE1BRespirationm9141F 11.1 1.047 /#  1 : @5'u'hh: TC/ALSETE1BSettlingm9151F 11.1 1.024 /#   : @5'u'hh: TC/CLID5!E1B5!Coliform decay5!m5!95!165!15!5!F 5!11.1 5!1.047 5!/#   : @5'u'hh: 8*"Gk*"Nonconservative*"m*"9*" *"5*"*" *"  *"Q! *"/#  5! : @5'u'hh: TC/ANCDC#E1B#Decay#m#9#17#1##F #11.1 #1.000 #/#  *" : @5'u'hh: TC/ANCST%E1B%Settling%m%9%18%1%%F %11.1 %1.024 %/#  # : @5'u'hh: TC/ANCSC.'E1B.'Source.'m.'9.'19.'1.'.'F .'11.1 .'1.000 .'/#%0.''  % : @5'u'hh: 8Gk%m      Q! /#      : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC1   /#&    & : @5'u'hh: 8Gk*** Load all headwaters into a comblist for 12(49)C1   /#      : @5'u'hh: 8GkFlow Augmentationm 1  Q! /#   : @5'u'hh: 8GkREACH NO.m10b1?   Q! /#   : @5'u'hh: 8uF3u# OF HEADumu10ub2u1uuI u0100 u 0 u/#   : @5'u'hh: 8jF3jMIN DO \n(mg/l)jmj10jb3j1jjF j0.15. j 5.0 jmg/l  u : @5'u'hh: 8_F3_SOURCE /#1_m_10_b4_3__ _0100 _ 0 _/#  j : @5'u'hh: 8T F3T SOURCE /#2T mT 10T b5T 3T T  T 0100 T  0 T /#  _ : @5'u'hh: 8I F3I SOURCE /#3I mI 10I b6I 3I I  I 0100 I  0 I /#  T  : @5'u'hh: 8> F3> SOURCE /#4> m> 10> b7> 3> >  > 0100 >  0 > /#  I  : @5'u'hh: 83 F33 SOURCE /#53 m3 103 b83 33 3  3 0100 3  0 3 /#  >  : @5'u'hh: 8( F3( SOURCE /#6( m( 10( b9( 3( (  ( 0100 (  0 ( /#  3  : @5'u'hh: 8Gk%m 1   Q! /#    (  : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC1  Q! /#      : @5'u'hh: 8GkHydraulic Datam     Q! /#   : @5'u'hh: 8F5REACH NO.m11b11I 150 Q! /#   : @5'u'hh: DISPSNKF5DISPER \nCONSTm11b21F 6.6000. . 60.0 ft2/s,m2/day   : @5'u'hh: COEFQVATF5TQ COEFF \nVELOCITY TmT11Tb3T1TTF T0. T 0.0 T/#   : @5'u'hh: EXPOQVBF5Q EXP \nVELOCITYm11b41F 0.01.0 . 0.00 /#  T : @5'u'hh: COEFQHCF5Q COEFF \n DEPTHm11b51F 0 . 0.00 /#   : @5'u'hh: EXPOQHDXF5XQ EXP \nDEPTHXmX11Xb6X1XXF X0.01.0 X. 0.00 X/#   : @5'u'hh: MANNINGSF5MANNINGm11b71F .001.05 . 0.02 /#  X : @5'u'hh: TRAPSS1F5SIDE \nSLOPE 1m11b81F 0.01000. Q! ft/ft,m/m   : @5'u'hh: TRAPSS2\F5\SIDE \n SLOPE 2\m\11\b9\1\\F \0.01000. \Q! \ft/ft,m/m   : @5'u'hh: TRAPWTH F5 WIDTH m 11 10 1  F  0  Q!  ft,m  \ : @5'u'hh: TRAPSLP!F5!SLOPE!m!11!11!1!!F !0.01.0 !Q! !ft/ft,m/m    : @5'u'hh: ELEVATIN`#E5A`#ELEV`#m`#11`#12`#1`#`#F `#ܩ40012000 `#1000.0 `#ft  ! : @5'u'hh: 8U$GkU$U$mU$CU$U$1U$U$ U$ܩ120.3650.  %X 305  %m  `# : @5'u'hh: DUSTATTN&E5A&DUST /COEFF&m&11&13&1&&F &.01.15 & .06 &/#J%1.''   % : @5'u'hh: CLOUDE5ACLOUDm11141F 0.01.0  0.0 /#   : @5'u'hh: DRYBULBXE5AXDRY /TEMPXmX11X15X1XXF X1.100. X 70. XF   : @5'u'hh: 8MGkMMmMCMM1MM M255 M 20 MC  X : @5'u'hh: WETBULBE5AWET /TEMPm11161F 1.100.  60. F  M : @5'u'hh: 8GkmC1 2.55. . 15.0 C   : @5'u'hh: ATMPRESE5ABAROMETRIC /PRESSUREm11171F 27.33.  30. inHg   : @5'u'hh: 8 Gk  m C  1     900.1100. F 1017. F mbar   : @5'u'hh: WINDVEL E5A WIND /SPEED m 11 18 1  F  0.100.   0.0  ft/s  F  : @5'u'hh: 8 Gk  m C  1    036   0.0  m/s    : @5'u'hh: 8 Gk % m C  1       Q!  /#      : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC1   /#      : @5'u'hh: 8GkBOD and DO Reaction Rate Constants}m}C}}1}} } }Q! }/#   : @5'u'hh: 8rGkrREACH NO.rmr12rb1r?rr r rQ! r/#  } : @5'u'hh: BOD DECAF6BOD DECAY \n(1/day)m12b21F 0.10.  0.0 1/day  r : @5'u'hh: BOD SETTF6BOD SETTLING \n(1/day)m12b31F 0.10.  0.0 1/day   : @5'u'hh: SOD RATEvF6vSOD RATE \n(g/ft2day) or (f/m2/day)vmv12vb4v1vvF v0.1. v 0.0 vg/ft2day,   : @5'u'hh: 8kGkk%kmkCkk1kkF k0.10. k 0.0 kg/m2day  v : @5'u'hh: 8F6TYPE \n REAERATIONm12b53I 18  3 /#  " : @5'u'hh: 8 F6 Single coeff. m 12   1 1     Q!  /#   : @5'u'hh: 8F6Churchillm12 12  Q! /#    : @5'u'hh: 8F6O'Connor and Dobbinsm1213  Q! /#   : @5'u'hh: 8F6Owens, Edwards, and Gibbsm1214  Q! /#   : @5'u'hh: 8F6Thackston and Krenkelm1215  Q! /#   : @5'u'hh: 8F6Langbien and Durumm1216  Q! /#   : @5'u'hh: 8F6Power functionm1217  Q! /#   : @5'u'hh: 8 F6 TsivoglouWallace m 12  1 8     Q!  /#   : @5'u'hh: 8!F6!REAERATION \n COEFF.!m!12!b6!1! !F !0.100. ! 0.0 !/#    : @5'u'hh: 8"F6"COEFF"m"12"b7"1""F "0 " 0.0 "1/ft,1/m  ! : @5'u'hh: 8#F6#EXPONENT#m#12#b8#1# #F #0 # 0.0 #/#  " : @5'u'hh: 8$Gk$%$m$ $$1$$ $  $Q! $/#    #  : @5'u'hh: 8%Gk%*** Array screen, 1(16) determines # of rows%C%%1%% % % %/#    $  : @5'u'hh: 8}&Gk}&N, P, and Algae Coefficients}&m}& }& }&1}&}& }&  }&Q! }&/#  % : @5'u'hh: 8r'E6Ar'REACH NO.r'mr'13r'b1r'?r'r' r' r'Q! r'/#&2.''  }& : @5'u'hh: NH2 DECAE6AON \n HYDROLYSISm13b21F 0.10.  0.0 1/day   : @5'u'hh: NH2 SETTXE6AXON \n SETTLINGXmX13Xb3X1XXF X0.10. X 0.0 X1/day   : @5'u'hh: NH3 DECAE6ANH3 \n OXIDATIONm13b41F 0.10.  0.0 1/day  X : @5'u'hh: NH3 SRCEE6ANH3 \n BENTHOSm13b51F 0  0.0 mg/ft2day   : @5'u'hh: 8Gk%mC1   0.0 mg/m2day   : @5'u'hh: NO2 DECA E6A NO2 \n OXIDATION m 13 b6 1  F  0.10.   2.0  1/day  \ : @5'u'hh: PORG DEC E6A OP \n DECAY m 13 b7 1  F  0.10.   0.0  1/day    : @5'u'hh: PORG SET` E6A` OP \n SETTLING` m` 13` b8` 1` ` F ` 0 `  0.0 ` 1/day    : @5'u'hh: DISP SRC E6A DISP \n BENTHOS m 13 b9 1  F  0   0.0  mg/ft2day  `  : @5'u'hh: 8Gk%m 1    0.0 mg/m2day c   :} @5'u'hh: CHLA/ARTdE6BdCHLA \n ALGAEdmd13d10d1ddF d1.100. d. 10.0 dug chla/mg algaec   :} @5'u'hh: ALG SETTE6BALGAE \n SETTLINGm13111F 0.3.  1.0 ft/day   : @5'u'hh: 8Gk%m131 01.0  1.0 m/day   : @5'u'hh: LTEXTNCOhE6BhNONALGAL \n LIGHT EXThmh13h12h1hhF h03 h 0.0 h1/ft   : @5'u'hh: 8]Gk]%]m]13]]1]] ]024.0 ] 0 ]1/m  h : @5'u'hh: COLI DEC E6B COLIFORM m 13 13 1  F  0.10.   0.0  1/day  ] : @5'u'hh: 8Gk%m131  Q!     : @5'u'hh: ANC DECAE6BNONCONS \n DECAYm13141F 0  0.0 1/day   : @5'u'hh: ANC SETTVE6BVNONCONS \n SETTLINGVmV13V15V1VVF V0 V 0.0 V1/day   : @5'u'hh: ANC SRCE E6B NONCONS \n BENTHOS m 13 16 1  F  0   0.0  mg/ft2day  V : @5'u'hh: 8 Gk % m           0   0.0  mg/m2day      : @5'u'hh: 8"Gk"*** Array screen, 1(16) determines # of rows"C""1"" " " "/#&    !& : @5'u'hh: 8#Gk#*** 'name' is obtained from Screen No. 6 if anyO$CO$O$1O$O$ O$ O$ O$/#    "  : @5'u'hh: 8D%GkD%Initial Conditions of the StreamD%mD% D% D% D%D% D% D%Q! D%/#  O$ : @5'u'hh: 89&F79&REACH NO.9&m9&149&b19&?9&9& 9&150 9& 1 9&/#  D% : @5'u'hh: 8.'F7.'TEMP.'m.'14.'b2.'1.'.'F .'35.135. .'. 70.0 .'Fw&3.''  9& : @5'u'hh: 8Gk%mC1 255.0 . 21.0 C   : @5'u'hh: 8F7DOm14b31F 0.15.  0.0 mg/l   : @5'u'hh: 8F7BODm14b41F 0.1000.  0.0 mg/l   : @5'u'hh: 8F7CONS #1\nnamem14b5?/1F 0 Q! from 6(11)   : @5'u'hh: 8F7CONS #2 \nnamem14b6?/1F 0 Q! from 6(13)   : @5'u'hh: 8,F7,CONS #3\nname,m,14,b7,?/1,,F ,0 ,Q! ,from 6(15)  7 : @5'u'hh: 8F7NONCONS \nname 14b8?/1F 0 Q! from 6(18)   : @5'u'hh: 8 F7 COLIFORM m 14 b9 1  F  0  Q!  No./100ml    : @5'u'hh: 80 E7A0 CHLA0 m0 140 100 10 0 F 0 0 0 Q! 0 ug/l  ;  : @5'u'hh: 8% E7A% ORGN% m% 14% 11% 1% % F % 0 % Q! % mg/l  0  : @5'u'hh: 8E7ANH3Nm14121F 0 Q! mg/l  %  : @5'u'hh: 8E7ANO2Nm14131F 0 Q! mg/l   : @5'u'hh: 8E7ANO3Nm14141F 0 Q! mg/l   : @5'u'hh: 8E7AORGPm14151F 0 Q! mg/l   : @5'u'hh: 8E7ADISPm14161F 0 Q! mg/l   : @5'u'hh: 8Gk%mC1   Q! /#      : @5'u'hh: 8Gk*** Array screen, 1(16) determines # of rowsC 1   /#&    & : @5'u'hh: 8Gk*** 'name' is obtained from Screen No. 6 if anyC1   /#      : @5'u'hh: 8yGkyIncremental InflowymyCyy1yy y  yQ! y/#   : @5'u'hh: 8nF8nREACH NO.nmn15nb1n?nn n  nQ! n/#  y : @5'u'hh: INCRFLOWF8FLOWm15b21F  Q! ft3/s,m3/s  n : @5'u'hh: INCRTEMPF8TEMPm15b31F 35.135. . 70.0 F   : @5'u'hh: 8Gk%mC1 2.55.0 . 21.0 C   : @5'u'hh: INCRDOgF8gDOgmg15gb4g1ggF g0.15. g 0.0 gmg/l   : @5'u'hh: INCRBODF8BODm15b51F 0.1000.  0.0 mg/l  g : @5'u'hh: INCRCM1 F8 CONS #1\n name m 15 b6 a?/1  F  0  Q!  from 6(11)   : @5'u'hh: INCRCM2k"F8k"CONS #2 \n namek"mk"15k"b7k"a?/1k"k"F k"0 k"Q! k"from 6(13)    : @5'u'hh: INCRCM3$F8$CONS #3 \n name$m$15$b8$a?/1$$F $0 $Q! $from 6(15)  k" : @5'u'hh: INCRANC%E8A%NONCONS \n name%m%15%b9%a?/1%%F %0 %Q! %from 6(18)  $ : @5'u'hh: INCRCOLIo'E8Ao'COLIFORMo'mo'15o'10o'1o'o'F o'0 o'Q! o'No./100ml&4.''  % : @5'u'hh: INCRCHLAE8ACHLAm15111F 0 Q! ug/l   : @5'u'hh: INCRNH2NXE8AXORGNXmX15X12X1XXF X0 XQ! Xmg/l   : @5'u'hh: INCRNH3NE8ANH3Nm15131F 0 Q! mg/l  X : @5'u'hh: INCRNO2NE8ANO2Nm15141F 0 Q! mg/l   : @5'u'hh: INCRNO3N\E8A\NO3N\m\15\15\1\\F \0 \Q! \mg/l   : @5'u'hh: INCRPORG E8A ORGP m 15 16 1  F  0  Q!  mg/l  \ : @5'u'hh: INCRDISP E8A DISP m 15 17 1  F  0  Q!  mg/l    : @5'u'hh: 8 Gk % m C  1      Q!  /#    : @5'u'hh: 8 Gk % m C  1       Q!  /#    : @5'u'hh: 8Gk*** Array screenmC1   Q! /#      : @5'u'hh: 8Gk*** 'name' is obtained from Screen No. 6 if any?C??1?? ? ? ?/#      : @5'u'hh: 84Gk4Headwater Source Data4m4 4 4 44 4 4Q! 4/#  ? : @5'u'hh: 8)E10)HEADWATER \n NAME)m)16)b1)?)) ) )Q! )/#  4 : @5'u'hh: HWTRFLOWE10FLOWm16b21F  Q! ft3/s,m3/s  ) : @5'u'hh: HWTRTEMPE10TEMPm16b31F 35.135. . 70.0 F   : @5'u'hh: 8vGkv%vmvCvv1vv v2.55.0 v. 21.0 vC   : @5'u'hh: HWTRDO"E10"DO \n(mg/l)"m"16"b4"1""F "0.15. " 0.0 "mg/l  v : @5'u'hh: HWTRBODE10BOD \n(mg/l)m16b51F 0.1000.  0.0 mg/l  " : @5'u'hh: HWTRCM1zE10zCONS #1\nnamezmz16zb6za?/1zzF z zQ! zfrom 6(11)   : @5'u'hh: HWTRCM2&E10&CONS #2 \nname&m&16&b7&a?/1&&F & &Q! &from 6(13)  z : @5'u'hh: HWTRCM3E10CONS #3 \nnamem16b8a?/1F  Q! from 6(15)  & : @5'u'hh: HWTRANC~ Da10A~ NONCONS \nname~ m~ 16~ b9~ a?/1~ ~ F ~   ~ Q! ~ from 6(18)   : @5'u'hh: HWTRCOLI*"Da10A*"COLIFORM \n(No./100ml)*"m*"16*"10*"1*"*"F *"  *"Q! *"No./100ml  ~  : @5'u'hh: HWTRCHLA#Da10A#CHALA#m#16#11#1##F #  #Q! #ug/l  *" : @5'u'hh: HWTRNH2N%Da10A%ORGN%m%16%12%1%%F % %Q! %mg/l  # : @5'u'hh: HWTRNH3N.'Da10A.'NH3N.'m.'16.'13.'1.'.'F .' .'Q! .'mg/l%5.''  % : @5'u'hh: HWTRNO2NDa10ANO2Nm16141F   Q! mg/l   : @5'u'hh: HWTRNO3NXDa10AXNO3NXmX16X15X1XXF X  XQ! Xmg/l   : @5'u'hh: HWTRPORGDa10AORGPm16161F   Q! mg/l  X : @5'u'hh: HWTRDISPDa10ADISPm16171F   Q! mg/l   : @5'u'hh: 8Gk%m     Q! /#   : @5'u'hh: 8Gk*** Array screenmC1  Q! /#"   " : @5'u'hh: 8 Gk ** total # of point loads & withdrawals determines # of rowsF F 1F F  F   F  F (    ( : @5'u'hh: 8; Gk; *** 'name' is obtained from Screen No. 6 if any C  1        /#    F  : @5'u'hh: 8 Gk Point Loads and Withdrawals m            Q!  /#    : @5'u'hh: 8 E11 REACH NO. m 17 b1 1  F    Q!  /#    : @5'u'hh: 8GkELE NO.m17b21  Q! /#    : @5'u'hh: 8GkTYPEm17b31C  Q! /#   : @5'u'hh: 8GkNAMEm17b41  Q! /#   : @5'u'hh: PTLDTFCTgE11gTREAT \n(%)gmg17gb5g1ggF g0.01.0 g 0.0 g/#   : @5'u'hh: PTLDFLOWE11FLOWm17b61F ܩ999. 999  0.0 ft3/s,m3/s  g : @5'u'hh: PTLDTEMPE11TEMPm17b71F 35.135. . 70.0 F   : @5'u'hh: 8Gk%mC 1 2.55.0 . 21.0 C   : @5'u'hh: PTLDDO`E11`DO`m`17`b8`1``F `0.15. ` 0.0 `mg/l   : @5'u'hh: PTLDBOD E11 BOD m 17 b9 1  F  0.1000.   0.0  mg/l  ` : @5'u'hh: PTLDCM1E11CONS #1\nnamem1710?/1F 0 Q! from 6(11)    : @5'u'hh: PTLDCM2dE11dCONS #2 \nnamedmd17d11d?/1ddF d0 dQ! dfrom 6(13)   : @5'u'hh: PTLDCM3E11CONS #3 \nnamem1712?/1F 0 Q! from 6(15)  d : @5'u'hh: PLTDANC Da11A NONCONS \nname m 17 13 ?/1  F  0  Q!  from 6(18)   : @5'u'hh: PTLDCOLIh"Da11Ah"COLIFORMh"mh"17h"14h"1h"h"F h"0 h"Q! h"No./100ml    : @5'u'hh: PTLDCHLA$Da11A$CHL A$m$17$15$1$$F $0 $Q! $ug/l  h" : @5'u'hh: PTLDNH2N%Da11A%ORGN%m%17%16%1%%F %0 %Q! %mg/l  $ : @5'u'hh: PTLDNH3Nl'Da11Al'NH3Nl'ml'17l'16l'1l'l'F l'0 l'Q! l'mg/l%6.''  % : @5'u'hh: PTLDNO2NDa11ANO2Nm17171F 0 Q! mg/l   : @5'u'hh: PTLDNO3NXDa11AXNO3NXmX17X18X1XXF X0 XQ! Xmg/l   : @5'u'hh: PTLDPORGDa11AORGPm17191F 0 Q! mg/l  X : @5'u'hh: PTLDDISPDa11ADISPm17201F 0 Q! mg/l   : @5'u'hh: 8Gk%mC1  Q! /#   : @5'u'hh: 8Gk*** Array screenm    Q! /#   : @5'u'hh: 8 Gk Dam Reaeration m            Q!  /#   : @5'u'hh: 8 E12 REACH NO. m 18 b1 ?       Q!  /#    : @5'u'hh: 8y E12y ELE #y my 18y b2y ?y y I y 120 y Q! y /#    : @5'u'hh: DAMSACOF% E12% ADAM \nCOEFF% m% 18% b3% 1% % F % .52.0 %  1.0 % /#  y  : @5'u'hh: DAMSBCOFE12BDAM \nCOEFFm18b41F .011.5  1.0 /#  %  : @5'u'hh: DAMSFRAC}E12}% FLOW \nOVER DAM}m}18}b5}1}}F }0.01.0 } 0.0 }/#   : @5'u'hh: 8rE12rHEIGHT \nDAMrmr18rb6r1rrF r0 r 0.0 rft,m  } : @5'u'hh: 8gGkg%gmg g g gg  g gQ! g/#    r  : @5'u'hh: 8\Gk\*** 'name' is obtained from Screen No. 6 if anyC1    /#    g  : @5'u'hh: 8GkDownstream BoundarymC1   Q! /#   : @5'u'hh: 8E13Temperaturem19b11F 35.135. . 70.0 F   : @5'u'hh: 8Gk%mC1 2.55.0 . 21.0 C   : @5'u'hh: 8E13Dissolved oxygen (mg/l)m19b21F 0.15.  0.0 mg/l   : @5'u'hh: 8E13BOD concentration (mg/l)m19b31F 0.1000.  0.0 mg/l   : @5'u'hh: 8E13Conservative #1 (name) 19b4a?/1F 0 Q! from 6(11)   : @5'u'hh: 8}E13}Conservative #2 (name)}m}19}b5}a?/1}}F }0 }Q! }from 6(13)   : @5'u'hh: 8)E13)Conservative #3 (name))m)19)b6)a?/1))F )0 )Q! )from 6(15)  4 : @5'u'hh: 8Gk%m195F 0 Q! /#   : @5'u'hh: 8E13Nonconservative (name) m19b7a?/1F 0 Q! from 6(18)   : @5'u'hh: 8v!E13v!Coliform (No./100 ml)v!mv!19v!b8v!1v!v!F v!0 v!Q! v!No./100ml    : @5'u'hh: 8"#Da13A"#Chlorophyll a (ug/l)"#m"#19"#b9"#1"#"#F "#0 "#Q! "#ug/l  -" : @5'u'hh: 8$Da13A$Organic N as N (mg/l)$m$19$10$1$$F $0 $Q! $mg/l  "# : @5'u'hh: 8 %Da13A %Ammonia as N (mg/l) %m %19 %11 %1 % %F  %0  %Q!  %mg/l  $ : @5'u'hh: 8&Da13A&Nitrite as N (mg/l)&m&19&12&1&&F &0 &Q! &mg/l   % : @5'u'hh: 8&Da13A&Nitrate as N (mg/l)&m&19&13&1&&F &0 &Q! &mg/l?&7.''  & : @5'u'hh: 8Da13AOrganic Phosphorus as P (mg/l)m19141F 0 Q! mg/l   : @5'u'hh: 8Da13ADissolved Phosphorus (mg/l)m19151F 0 Q! mg/l   : @5'u'hh: 8Gk%mC1   Q! /#"   " : @5'u'hh: 8Gk*** Array screen, load values from 7(14) if Climatological input file is available   Q! /#"   " : @5'u'hh: 8Gk*** or create Climatology input file7m7 77177 7 7Q! 7/#   : @5'u'hh: 8,Gk,Global Values of Climatology Datam 1  Q! /#  7 : @5'u'hh: 8GkMON \n(mm)m20b11I 112  1 /#   : @5'u'hh: 8 Gk DAY \n(dd) m 20 b2 1  I  131   1  /#   : @5'u'hh: 8 Gk YEAR \n(yy) m 20 b3 1  I  199   86  /#    : @5'u'hh: 8 Gk HOUR \n(hh) m 20 b4 1  F  023   0  /#    : @5'u'hh: STADATNc Gkc SOLAR \n RADIATIONc mc 20c b5c 1c c F c 0.550. c  0.0 c BTU/ft2hr    : @5'u'hh: 8XGkXXmX20XX1XX X0150.0 X 0.0 XLangley/hr  c  : @5'u'hh: 8GkCLOUDm20b61F 0.1.  0.0 /#   : @5'u'hh: 8GkDRY TEMPm20b71F 1.100.  60. F   : @5'u'hh: 8GkmC1 1.038.0 . 15.0 C   : @5'u'hh: 8GkWET TEMPm20b81F 1.100.  60. F   : @5'u'hh: 8GkmC1 1.038.0 . 15.0 C   : @5'u'hh: 8GkBAROMETRIC \n PRESSUREm20b91F 27.33.  30. in Hg   : @5'u'hh: 8GkmC1 900.1100. y1017.0 ymbar   : @5'u'hh: 8nGknWIND \n SPEEDnmn20n10n1nnF n0100. n 0.0 nft/s  y : @5'u'hh: 8cGkccmcCcc1cc c036. c 0.0 cm/s  n : @5'u'hh: 8XGkX%XmXCXX1XX X  XQ! X/#  c : @5'u'hh: 8MGkM%MmMCMM1MM M  MQ! M/#  X : @5'u'hh: 8BGkBUncertainty AnalysisBmBCBB1BB B BQ! B/#  M : @5'u'hh: 87Gk7Description of uncertainty analysism21b11C80  Q! /#  B : @5'u'hh: 8GkUncertaintym21b25   Q! /#   : @5'u'hh: 8GkSensitivity analysism21b36   Q! /#   : @5'u'hh: 8GkFirst order error analysism21b46   Q! /#   : @5'u'hh: 8 Gk Monte carlo simulation m 21 b5 6       Q!  /#   : @5'u'hh: 8!Gk!Magnitude of input perturbation (%)n"mn"21n"b6n"1n"n" n"  n"Q! n"/#    : @5'u'hh: 8c#Gkc#Number of simulationsc#mc#21c#b7c#1c#c# c#  c#Q! c#/#  n" : @5'u'hh: 8X$GkX$Input conditionX$mX$21X$b8X$5X$X$ X$  X$Q! X$/#  c# : @5'u'hh: 8M%GkM%Single/Multiple perturbationM%mM%21M%b9M%6M%M% M% M%Q! M%/#  X$ : @5'u'hh: 8B&GkB&2level factorial designB&mB&21B&10B&6B&B& B& B&Q! B&/#  M% : @5'u'hh: 87'Gk7'All inputs7'm7'217'117'67'7' 7' 7'Q! 7'/#&8.''  B& : @5'u'hh: 8GkGeneric inputsm21126  Q! /#   : @5'u'hh: 8Gk# of input variablesm21131  Q! /#   : @5'u'hh: 8B 1,1A,E1BGlobalm21144  Q! /#   : @5'u'hh: 8C75,5AHydraulic/Climatologym21154  Q! /#   : @5'u'hh: 8B 6,6A,E6B7Reaction coefficient7m7217167477 7 7Q! 7/#   : @5'u'hh: 8,C78,8A,Incremental flow,m,21,17,4,, , ,Q! ,/#  7 : @5'u'hh: 8!B10,10FAHeadwater m21184  Q! /#  , : @5'u'hh: 8 B11,11FA Point loads m 21 19 4      Q!  /#   : @5'u'hh: 8y E12y Damsy my 21y 20y 4y y  y  y Q! y /#    : @5'u'hh: 8n Gkn Input variance data filen mn 21n 21n 3n n  n  n Q! n /#  y  : @5'u'hh: 8c Gkc Intermediate outputc mc 21c 22c 5c c  c  c Q! c /#  n  : @5'u'hh: 8XGkXNoneXmX21X23X6XX X XQ! X/#  c  : @5'u'hh: 8MGkMCompleteMmM21M24M6MM M MQ! M/#  X : @5'u'hh: 8BGkBLimitedBmB21B25B6BB B BQ! B/#  M : @5'u'hh: 87Gk7Output variables7m7217 7577 7 7Q! 7/#  B : @5'u'hh: 8,Gk,Hydraulic,m,21,26,4,, , ,Q! ,/#  7 : @5'u'hh: 8!Gk!Quality!m!21!27!4!! ! !Q! !/#  , : @5'u'hh: 8GkInternalm21284  Q! /#  ! : @5'u'hh: 8 Gk % m    1      Q!  /#"   " : @5'u'hh: 8Gk*** VARIABLE, 24(3), were obtained from appropriate Input code1   Q! "    " : @5'u'hh: 8GkInput Variables for Sensitivity AnalysiscmcCcc1cc c  cQ! c/#   : @5'u'hh: 8XGkXTYPEXmX22Xb1X3XX X  XQ! X/#  c : @5'u'hh: 8MGkMSingleMmM22MM1M1M M  MQ! M/#  X : @5'u'hh: 8BGkBMultipleBmB22BB1B2B B  BQ! B/#  M : @5'u'hh: 87Gk7Fractorial7m722771737 7  7Q! 7/#  B : @5'u'hh: 8,Gk,# OF INPUT,m,22,b2,1,,I ,  ,Q! ,/#  7 : @5'u'hh: 8!Gk!VARIABLE!m!22!b3!3!!C !  !Q! !/#  , : @5'u'hh: 8GkPERTURBATION (%)m22b41F   Q! /#  ! : @5'u'hh: 8 Gk % m C  1       Q!  /#   : @5'u'hh: 8!Gk!*** Create/Edit Input Variance Data File!m!C!!1!! !  !Q! !/#    : @5'u'hh: 8"Gk"*** see Table 2 for 25(12)"m"C""1"" "  "Q! "/#    !  : @5'u'hh: 8#Gk#Input Variables for First Order and Monte Carlo AnalysisX$CX$23X$ X$X$ X$ X$Q! X$/#    "  : @5'u'hh: 8M%GkM%GENERIC \n GROUPM%mM%23M%b1M%loadM%M%C20 M%  M%Q! M%/#  X$ : @5'u'hh: 8B&GkB&VARIABLE \n NAMEB&mB&23B&b2B&loadB&B&C30 B&  B&Q! B&/#  M% : @5'u'hh: 87'Gk7'COEFF \n VARIATION7'm7'237'b37'17'7'F 7'  7'Q! 7'/#&9.''  B& : @5'u'hh: 8GkPROBABILITY \nDFm23b43C15   Q! /#   : @5'u'hh: 8GkNormalm23 11   Q! /#   : @5'u'hh: 8GkLognormalmC12   Q! /#   : @5'u'hh: 8Gk%mC1   Q! /#   : @5'u'hh: 8GkSelect Element Number to be PrintedmC1   Q! /#   : @5'u'hh: 8uGkuREACH NO.umu24ub1u uu u  uQ! u/#   : @5'u'hh: 8jGkjE1jmj24jb2j4jj j  jQ! j/#  u : @5'u'hh: 8_Gk_E2_m_24_b3_4__ _  _Q! _/#  j : @5'u'hh: 8T GkT ...T mT 24T ...T 1T T  T   T Q! T /#   _ : @5'u'hh: 8Y GkY E20Y mY 24Y 21Y 4Y Y  Y   Y Q! Y /#  T  #U3_ @Qǩ@#Y :.'' j^g0  H   yxH.dddyڲ;.**>>Ԓ5  k &Chapter Title#2p}wC q#REFERENCE$ &sChapter Title$# PU6X@Kǩ@#  ~J #`2PkCP#Brown, L. C., and T. O. Barnwell, Jr. 1987. The Enhanced Stream Water Quality Models QUAL2E and  ~J^ QUAL2EUNCAS: Documentation and User Manual.  EPA600/387/007. U.S. Environmental Protection Agency, Athens, GA. May. <.**>>