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17 ..#" ( program Wasser; uses FPCMacOSAll; const TL = 0.01; // Afstand tussen Lamellen (m) NL = 200 ; // Aantal Lamellen (-) HL = 2 ; // Hoogte Lamellen (m) LL = 0.5 ; // Lengte Lamellen (m) DL = 0.005; // Dikte Lamellen (m) WF = e-4; // Waterflow (m3/sec) GF = 8.3 ; // Gasflow (m3/sec) NY = 200 ; // Aantal cellen hoog (-) NX = 100 ; // Aantal cellen lang (-) GasIN = 9.26e-4; // Concentratie NH3 instromend gas (mol/m3) phinit = 4 ; // ph instromend water Temp = 15 ; // Temperatuur ka = 6.05e-7; // zuurconstante NH4plus bij 15 graden (mol/m3) km = ; // mass transfer constante (m/sec) Henry = ; // Henry constante volgens hashimoto et albij T=15 graden dt = 0.001; // Tijdstapje (sec) n = 10000; // Aantal berekeningen (-) var NLK : integer; // Aantal lamelkanten (-) WFLK : real; // Waterflow per lamelkant (m3/sec) GFLK : real; // Gasflow per lamelkant (m3/sec) H : real; // Celhoogte (m) L : real; // Cellengte (m) WCelV : real; // Celvolume waterkant (m3) GCelV : real; // Celvolume gaskant (m3) A : real; // Uitwisselend oppervlak per cel (m2) WFC : real; // Waterflow per cel (m3/sec) GFC : real; // Gasflow per cel (m3/sec) VW : real; // Verversingsfactor volumeflow/volume cel water (-) VG : real; // Verversingsfactor gasflow/volume cel gas (-) WNuit : real; // Uitflow van molen uit de wasser in de waterfase (mol) GNCuit : real; // Uitflow van NH3 uit de wasser in de gasfase (mol/m3) step,i,j :integer; // tellers GNH3 : array[0..(nx+1), 0..(NY+1)] of double; // concentratie NH3 gasfase (mol/m3) WN : array[0..(nx+1), 0..(NY+1)] of double; // molen N in de waterfase (mol) WNH3 : array[0..(nx+1), 0..(NY+1)] of double; // concentratie NH3 waterfase (mol/m3) WNH4 : array[0..(nx+1), 0..(NY+1)] of double; // concentratie NH4 waterfase (mol/m3) WHplus : array[0..(nx+1), 0..(NY+1)] of double; // concentratie H+ waterfase (mol/m3) Transfer : array[0..nx, 0..NY] of double; // transferred ammonia per cel(mol) // Per lamelkant basisgrootheden H := HL/NY; L := LL/NX; A := H*L; NLK := 2*NL; WFLK:= WF/NLK; GFLK:= GF/NLK; WFC := WFLK/NX; GFC := GFLK/NY; WCelV:= 0.5*DL*A; GCelV:= 0.5*TL*A; VW := (WFC*dt)/WCelV; ;-

18 VG := (GFC*dt)/GCelV; writeln('celhoogte = ',H:8:8,' (m)'); writeln('cellengte = ',L:8:8,' (m)'); writeln('uitw.oppervlak = ',A:8:8,' (m2)'); writeln('wcelvolume = ',WCelV:8:8,' (m3)'); writeln('gcelvolume = ',GCelV:8:8,' (m3)'); writeln('waterflow Cel = ',WFC:8:8,' (m3/sec)'); writeln('gasflow Cel = ',GFC:8:8,' (m3/sec)'); writeln('verversing water= ',VW:8:8,' (-)'); writeln('verversing gas = ',VG:8:8,' (-)'); // Initieren van de gas en waterfase met lege waarden for i:= 0 to NX+1 do for j:= 0 to NY+1 do GNH3[i,j]:=0; WNH3[i,j]:=0; WNH4[i,j]:=0; WHplus[i,j]:=exp(-pHinit*ln(10))*1000; end; end; // let op: x 1000, want mol/m3 // Initieren van de gas instroom for j:= 1 to NY do GNH3[0,j] := GasIN; end; // Initieren van de waterstroom for i:= 1 to NX do WNH4[i,0] := 0; for i:=1 to NX do for j:=0 to (NY+1) do WN[i,j]:= ( WNH3[i,j]+WNH4[i,j] )*WCelV; end; WNuit:=0; GNCuit:=0; writeln; // bereken WN (mol) voor elke cel // MAIN calculation loop // for step:= 1 to n do // Print tussenresultaten writeln('===== Step ',step,' ===== In: gas=',gasin*gflk,'mol/sec ==== Uit: water=', WNuit*WFLK/(WCelV*NX),' mol/sec gas=',gncuit*gflk,' mol/sec ==== Rendement=', 100-(GNCuit/GasIN*100):4:4,'% ===='); writeln('wnh4 [1, 0]=',WNH4[1,0],' [20, 0]=',WNH4[20,0],' [40, 0]=',WNH4[40,0],' [60, 0]=', WNH4[60,0],' [80, 0]=',WNH4[80,0],' [100, 0]=',WNH4[100,0]); writeln('wnh4 [1, 1]=',WNH4[1,1],' [20, 1]=',WNH4[20,1],' [40, 1]=',WNH4[40,1],' [60, 1]=', WNH4[60,1],' [80, 1]=',WNH4[80,1],' [100, 1]=',WNH4[100,1]); for j:= 1 to 5 do writeln('wnh4 [1,',(j*20):3,']=',WNH4[1,(j*20)],' [20,',(j*20):3,']=',WNH4[20,(j*20)], ' [40,',(j*20):3,']=',WNH4[40,(j*20)],' [60,',(j*20):3,']=',WNH4[60,(j*20)],' [80,',(j*20):3,']=', WNH4[80,(j*20)],' [100,',(j*20):3,']=',WNH4[100,(j*20)]); writeln(''); writeln('gnh3 [0, 0]=',GNH3[0,0],' [1, 0]=',GNH3[1,0],' [20, 0]=',GNH3[20,0],' [40, 0]=',GNH3[40,0], ' [60, 0]=',GNH3[60,0],' [80, 0]=',GNH3[80,0],' [100, 0]=',GNH3[100,0],' [101, 0]=',GNH3[101,0]); writeln('gnh3 [0, 1]=',GNH3[0,1],' [1, 1]=',GNH3[1,1],' [20, 1]=',GNH3[20,1],' [40, 1]=',GNH3[40,1], ' [60, 1]=',GNH3[60,1],' [80, 1]=',GNH3[80,1],' [100, 1]=',GNH3[100,1],' [101, 1]=',GNH3[101,1]); for j:= 1 to 5 do writeln('gnh3 [0,',(j*20):3,']=',GNH3[0,(j*20)],' [1,',(j*20):3,']=',GNH3[1,(j*20)], ;?

19 ' [20,',(j*20):3,']=',GNH3[20,(j*20)],' [40,',(j*20):3,']=',GNH3[40,(j*20)],' [60,',(j*20):3,']=', GNH3[60,(j*20)],' [80,',(j*20):3,']=',GNH3[80,(j*20)],' [100,',(j*20):3,']=',GNH3[100,(j*20)], ' [101,',(j*20):3,']=',GNH3[101,(j*20)]); writeln(''); writeln('wn [1, 1]=',wn[1,1],' [20, 1]=',wn[20,1],' [40, 1]=',wn[40,1],' [60, 1]=',wn[60,1],' [80, 1]=', wn[80,1],' [100, 1]=',wn[100,1]); for j:= 1 to 5 do writeln('wn [1,',(j*20):3,']=',wn[1,(j*20)],' [20,',(j*20):3,']=',wn[20,(j*20)], ' [40,',(j*20):3,']=',wn[40,(j*20)],' [60,',(j*20):3,']=',wn[60,(j*20)],' [80,',(j*20):3,']=',wn[80,(j*20)], ' [100,',(j*20):3,']=',wn[100,(j*20)]); writeln('wn [1,101]=',wn[1,101],' [20,101]=',wn[20,101],' [40,101]=',wn[40,101],' [60,101]=', wn[60,101],' [80,101]=',wn[80,101],' [100,101]=',wn[100,101]); writeln(''); // transport water naar beneden met WNH3, WNH4 en WHplus nieuw uitrekenen for i:=1 to NX do for j:= NY+1 downto 1 do WN[i,j]:=WN[i,j] - (VW*WN[i,j]) + (VW*WN[i,(j-1)]); // stikstof doorstroom WHplus[i,j]:=WHplus[i,j] - (VW*WHplus[i,j]) + (VW*WHplus[i,(j-1)]); // Hplus doorstroom WNH4[i,j]:= WN[i,j]/( WCelV*(1 + (1/ (1+ (WHplus[i,j]/ka) )))); // herverdeling NH4 WNH3[i,j]:= (WN[i,j]/WCelV) - WNH4[i,j]; // herverdeling NH3 end; end; // Calculatie wasser uitflow (mol waterfase) WNuit:=0; for i:=1 to nx do WNuit:=WNuit+WN[i,(ny+1)]; // Transport gas in gasrichting en bereken de nieuwe GNH3 for j:= 1 to NY do for i:= nx+1 downto 1 do GNH3[i,j]:=GNH3[i,j]-(VG*GNH3[i,j])+(VG*GNH3[i-1,j]); end; // Calculatie wasser uitflow (mol gasfase) GNCuit:=0; for j:=1 to NY do GNCuit:=GNCuit+GNH3[(NX+1),j]; GNCuit:=GNCuit/NY; // Mass transfer uitrekenen en berekenen nieuwe gas en waterfase ph wordt constant genomen for i:=1 to nx do for j:= 1 to ny do transfer[i,j]:=km*a*dt*( (Henry*GNH3[i,j]) - (ka*wnh4[i,j]/whplus[i,j]) ); // aantal molen transfer GNH3[i,j]:=GNH3[i,j]-(transfer[i,j]/GCelV); // nieuwe gasconc. WN[i,j]:=WN[i,j]+transfer[i,j]; // nieuwe totale N in waterkant cel WNH4[i,j]:=WN[i,j]/WCelV*(1- (ka/(whplus[i,j]+ka))); // nieuwe verdeling NH3 NH4plus WNH3[i,j]:=(WN[i,j]/WCelV)-WNH4[i,j]; end; end; end; // Einde main loop van berekeningen end. // Einde programma ;&

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