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Kebutuhan Program yang diperlukan dalam Pengelolaan Waduk Lembaga yang Berperan dalam Pengelolaan Waduk Berkelanjutan di Elemen Kendala dalam Pengelolaan Waduk Berkelanjutan

Sub Model KJA Tunggal Fk_ RTP_ Ex Fk_ KJA_ Ex J_ RTP Da ya _ Du ku n g _ Lin J_ KJA FCR J_ p a ka n T BBM_ a w J_ Limb a h KJAM_ Ex FkN JLN LJ_ FCR FCR_ Fk w a kt u Fk Limb a h JL BBM_ Akh Fk_ p e n g a li Fk DDL2 Fk2 DDL1 Pr_ LKJA L_ RTP Gambar 46 Sub model dinamik KJA tunggal dan luas KJA. Gambar 47 Sub model dinamik limbah ternak dan industri. Gambar 48 Sub model dinamik limbah pertanian, limbah padat, dan tinja. Gambar 49 Sub model dinamik luas hutan, pemukiman, dan pertanian. Gambar 50 Sub model dinamik KJA ganda, serta sub model limbah KJA tunggal versus KJA ganda. Gambar 51 Sub model dinamik sumber pencemar Waduk Cirata 5.3.2 Sub Model Beban Pencemar Sub model beban pencemar terdiri atas beberapa sub–sub model beban pencemaran, yaitu: TDS, TSS, As, Cd, Pb, F, BOD, COD, − 3 4 PO , − 3 NO , Fe, Zn, dan Mn. Ketiga belas sub-sub model tersebut dibuat secara parsial berdasarkan persamaan yang sesuai dengan masing-masing sub model kemudian diintegrasikan menjadi satu model beban pencemaran perairan di Waduk Cirata. Sub model dinamik beban pencemar waduk ditunjukkan pada Gambar 52. Sub model dinamik beban pencemar Waduk Cirata dibangun berdasarkan persamaan matematik sebagai berikut: TBP = TDS + TSS + As + Cd + Pb + F + BOD + COD + − 3 4 PO + − 3 NO + Fe + Zn + Mn .................................................................................. 11 Hal ini memenuhi persamaan total massa Jerald 1996 sebagai berikut : ∫ = t dt t C Q M ................................................................................................12a t C dt TBP d + = .......................................................................................12b ∫ = = + = n t t dt t C TBP 2002 ........................................................................................13 ∫ ∫ ∫ ∫ ∫ ∫ = = = = = = = = = = = = + + + + + n t t n t t n t t n t t n t t n t t dt t C dt t C dt t C dt t C dt t C dt t C 2002 2002 2002 2002 2002 2002 12 11 10 9 8 7 ...14 Dalam model dinamik sederhana persamaan 14 ditulis menjadi: TBP = TDSfk1 + TSSfk2 + Asfk3 + Cdfk4 + Pbfk5 + Ffk6 + BODfk7 + CODfk8 + − 3 4 PO fk9+ − 3 NO fk10+ Fefk11+ Znfk12 + Mnfk13 .........15 ∫ ∫ ∫ ∫ ∫ ∫ = = = = = = = = = = = = + + + + + + = n t t n t t n t t n t t n t t n t t dt t C dt t C dt t C dt t C dt t C dt t C TBP 2002 2002 2002 2002 2002 2002 6 5 4 3 2 1 Keterangan : TBP = Total beban pencemaran BP = Beban pencemaran BP TDS = Beban pencemaran total dissolve solid BP BOD = Beban pencemaran biological oxygen demand BP COD = Beban pencemaran chemical oxygen demand BP PO4 = Beban pencemaran posphat BP NO3 = Beban pencemaran nitrat BP TSS = Beban pencemaran total suspended solid BP As = Beban pencemaran arsen BP Cd = Beban pencemaran kadmium BP Fe = Beban pencemaran besi BP Zn = Beban pencemaran seng BP Pb = Beban pencemaran timbal BP Mn = Beban pencemaran mangan BP F = Beban Pencemaran fluor Gambar 52 Sub model dinamik beban pencemaran Waduk Cirata

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