# Introduction

a) Activated Sludge [18] ctivated sludge process is a highly efficient system for the aerobic biological treatment of industrial or municipal wastes. The process depends on the use of a high concentration of microorganisms in the form of floc, which is kept in suspension by agitation. Agitation is provided either by mechanical means or by aeration.

In this process, a portion of the separated sludge along with the native population of living microorganisms is added to the incoming effluent as inoculums. This added sludge is often referred to as activated sludge and carries out the actual oxidation. Thus, a constant microbial population is maintained in the activated sludge tank.

The activated sludge tank is simple in design. It is an oblong deep tank, provided with an inlet at the top of one end and an outlet at the bottom of the other end. Aeration is provided either by an air diffuser located at the bottom of the tank or by agitators at the surface of waters along both sides of the tank. 


# Exceptions

? S I (inert soluble organic matter) and S ALK (total alkalinity) are not included.

? The inert (X I,IAWQ ) and particulate (X P,IAWQ ) matter are combined into one variable Hence X I = X I,IAWQ + X P,IAWQ .

? (S O ) dissolved oxygen describes the oxygen transfer.

? K L a is the oxygen transfer function

? u is the airflow rate

? S O,sat is the saturated dissolved oxygen concentration.


# Parameters [19]

? S NH (t) soluble ammonium nitrogen IV. 


# Results of Simulation


# Conclusion

1. The pilot plant has been a very fruitful tool in studying various aspects of the activated sludge process, ranging from innovative operating modes microbiological studies to advanced control and estimation schemes. 2. New methods have been easy and inexpensive to test. It is, however, important to observe that the operation of a pilot plant with an extensive instrumentation is quite demanding in terms of maintenance. 3. The results from the pilot plant studies have given important guidelines for full scale plant design and operation.

4. The developed control strategies show that an increased automation can lead to energy savings and reduced consumption of chemicals. 5. The simulation model has been a very useful tool for evaluation of all the different controllers and control strategies.  
1![To realistically simulates a true plant o To evaluate controllers and control strategies ? IAWQ's Activated Sludge Model No. Most widely used model o Developed by Henze et al. (1987) o Used to model each zone of bioreactor. ? The bioreactor model describes o Removal of organic matter o Nitrification o Denitrification. ? alpha =2.2; ? bita =0.2; ? y_x_s=0.4; ? x_s= 7.3059; ? s_ss=5.1340; ? p_ss=25.0081; ? d_ss=0.20; % DILUTION RATE ? sf_ss=30; % SUBSTRATE CONCENTRATION b) Related Equations ? d = d_ss+ 0.016*u(1) ; % actual input dilution rate at given instance ? s = sf_ss + 2.3*u(2) ; % Actual substrate concentration at given instance ? mu_m1=mu_m;%+u(3); % maximum specific growth rate at given instance ? num=(1-(x(3)/p_m))*x(2); ? den=k_m+x(2)+((x(2)^2)/k_i); ? mu=mu_m1*(num)/den; c) Differential Equations ? (dx1/dt) = -d*x (1) +mu*x (1); ? (dx2/dt) = d*(s-x(2))-mu*x(1)/y_x_s ? (dx3/dt) = -d*x(3)+(alpha*mu + bita)*x(1) ; of The Fermenter System a) After Performing Identification b) Study Related to the Actual Activated Sludge System[19]](image-2.png "o 1 o")
6![Much time and work have been saved by first doing simulations prior to practical tests in the pilot plant.](image-3.png "6 .")
Year 201316IXIII Issue v v I VersionVolumeD D D D ) C(Global Journal of Researches in Engineering© 2013 Global Journals Inc. (US)
			© 2013 Global Journals Inc. (US)
			© 2013 Global Journals Inc. (US)
			© 2013 Global Journals Inc. (US)
		
		
			

				


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