Solid-Liquid Partitioning

Pesticides will partition into particulate and dissolved forms. The fraction of pesticide in each phase is a function of the pesticide’s partition coefficient and the reach segment’s suspended solid concentration:

Fd=11+KdconcsedF_d=\frac{1}{1+K_d*conc_{sed}} 7:4.1.1

Fp=Kdconcsed1+Kdconcsed=1FdF_p=\frac{K_d*conc_{sed}}{1+ K_d*conc_{sed}}=1-F_d 7:4.1.2

where FdF_d is the fraction of total pesticide in the dissolved phase, FpF_p is the fraction of total pesticide in the particulate phase, KdK_d is the pesticide partition coefficient (m3^3/g), and concsedconc_{sed} is the concentration of suspended solids in the water (g/m3^3).

The pesticide partition coefficient can be estimated from the octanol-water partition coefficient (Chapra, 1997):

Kd=3.085108KowK_d=3.085*10^{-8}*K_{ow} 7:4.1.3

where KdK_d is the pesticide partition coefficient (m3^3/g) and KowK_{ow} is the pesticide’s octanol-water partition coefficient (mg moctanol3^{-3}_{octanol}(mg mwater3^{-3}_{water})1^{-1}). Values for the octanol-water partition coefficient have been published for many chemicals. If a published value cannot be found, it can be estimated from solubility (Chapra, 1997):

log(Kow)=5.000.670log(pstsol)log(K_{ow})=5.00-0.670*log(pst'_{sol}) 7:4.1.4

where pstsolpst'_{sol} is the pesticide solubility (μ\mumoles/L). The solubility in these units is calculated:

pstsol=pstsolMW103pst'_{sol}=\frac{pst_{sol}}{MW}*10^3 7:4.1.5

where pstsolpst'_{sol} is the pesticide solubility (μ\mumoles/L), pstsolpst_{sol} is the pesticide solubility (mg/L) andMWMW is the molecular weight (g/mole).

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