192 ENVIRONMENTALENGINEERINGand since X =- 0
(9.22b)Note that in this case 0, # t.
Substrate removal can be considered in terms of a substrate removal velocio q:
= (Microorganism mass under aeration)(hydraulic residence time)
Substrate mass removedq=- so - s
xf.(9.23)The substrate removal velocity is a rational measure of the substrate removal activity,
or the mass of BOD removed in a given time per mass of microorganisms doing the
work, and is sometimes called the process loading factol: It is a useful operational and
design tool.
Substrate removal velocity may also be derived from a mass balance of the system
shown in Fig. 9-19:
Net rate of Rate of Rate of Rate of
changeof = substrate - substrate - substrate
substrate inflow outtlow utilizationdS
-v = QSo - QS - qxv.
dt (9.24)
The rate of substrate utilization is
(Substrate mass removed)(Microorganism mass)(reactor volume)
(Microorganism mass)(time)(reactor volume)qxv =
Substrate mass removed
Timeqxv =
Solving for q gives
so - s
q=-
Xt.
The Monod rate is defined in Eq. (9.13) asdX 1 Microorganism mass produced
dt X (Time)(Microorganismmass) *pL=--=The yield Y was previously defined as(9.25)dX Microorganism mass produced
dS Substrate mass removed 'y=-=