Optimizing  control method for sewage treatment based on  improved multi-objective cuckoo  algorithm

Abstract

Abstract: Aimed at the problems such as how to determine the optimal setting value of key variables in the process of optimizing control of wastewater treatment process (WWTP) to achieve the standard of effluent water quality and at the same time toreduce the energy consumption (EC) as much as possible, a multi-objective optimizing control method is proposed based on improved multi-objective cuckoo search algorithm (IMOCS). First, theEC and EQ models are presented based on neural network and analysis of wastewater treatment process. Then, both the EC and EQ models are simultaneously optimized by means of improved multi-objective cuckoo search algorithm and the optimal setting values of concentration of dissolved oxygen(DO) and nitrate-level nitrogen are obtained. Finally, the PID controller is chosen to conduct the tracing control of the optimal setting value, so that the multi-objective optimizing control of WWTP is achieved. Based on the international benchmark simulation platform No.1, and compared with other methods, it is shown that the proposed method can reduce EQ better in the process of sewage treatment and protect the environment, going on the premise of assuring the achievement of standard of the parameters of effluent water quality.

Key words: sewage treatment, optimizing control, benchmark simulation model, multi-objective cuckoo search algorithm

CLC Number:

TP18

ZHAO Xiao-qiang, LI Li-juan, FENG Xiao-lin. Optimizing control method for sewage treatment based on improved multi-objective cuckoo algorithm[J]. Journal of Lanzhou University of Technology, 2020, 46(1): 93-99.

References

[1] 曾焱,王爱莉,黄藏青.全国水利信息化发展“十三五”规划关键问题的研究与思考 [J].水利信息化,2015(1):14-19.
[2] 薛建峰.污水处理技术研究综述 [J].价值工程,2014(8):68-69.
[3] HREIZ R,FOCHE N,BENYAHIA B,et al.Multi-objective optimal control of small-size wastewater treatment plants [J].Chemical Engineering Research & Design,2015,102:345-353.
[4] BÉRAUD B,STEYER J P,LEMOINE C,et al.Towards a global multi objective optimization of wastewater treatment plant based on modeling and genetic algorithms [J].Water Science & Technology,2007,56(9):109-116.
[5] VEGA P,REVOLLAR S,FRANCISCO M,et al.Integration of set point optimization techniques into nonlinear MPC for improving the operation of WWTPs [J].Computers & Chemical Engineering,2014,68(8):78-95.
[6] ZHANG R,XIE W M,YU H Q,et al.Optimizing municipal wastewater treatment plants using an improved multi-objective optimization method [J].Bioresource Technology,2014,157(157):161-165.
[7] 韩广,乔俊飞,韩红桂,等.基于Hopfield神经网络的污水处理过程优化控制 [J].控制与决策,2014,29(11):2085-2088.
[8] 张伟,乔俊飞.神经网络的污水处理过程多目标优化控制方法 [J].智能系统学报,2016,11(5):594-599.
[9] 韩红桂,张璐,乔俊飞.基于多目标粒子群算法的污水处理智能优化控制 [J].化工学报,2016,68(4):1472-1481.
[10] 周红标,乔俊飞.混合多目标骨干粒子群优化算法在污水处理过程优化控制中的应用 [J].化工学报,2017,68(9):3511-3521.
[11] QIAO J,ZHANG W.Dynamic multi-objective optimization control for wastewater treatment process [J].Neural Computing & Applications,2016(4):1-11.
[12] ALEX J,BENEDETTI L,COPP J.The COST simulation benchmark description and simulator manual [R].Luxembourg: Office for Publications of the European Community,2001.
[13] 乔俊飞,卢超,王磊,等.城市污水处理过程模型研究综述 [J].信息与控制,2018,47(2):129-139.
[14] JEPPSSON U,PONS M N.The COST benchmark simulation model-current state and future perspective [J].Control Engineering Practice,2004,12(3):299-304.
[15] 乔俊飞,王莉莉,韩红桂.基于ESN的污水处理过程优化控制 [J].智能系统学报,2015,10(6):831-837.
[16] 逄泽芳,韩红桂,乔俊飞.基于神经网络的污水处理预测控制 [J].吉林大学学报(工学版),2011,41(s1):280-284.
[17] 乔俊飞,周红标.基于自组织模糊神经网络的出水总磷预测 [J].控制理论与应用,2017,34(2):224-232.
[18] 兰少峰,刘升.布谷鸟搜索算法研究综述 [J].计算机工程与设计,2015(4):1063-1067.
[19] JOSHI A S,KULKARNI O,KAKANDIKAR G M,et al.Cuckoo search optimization-a review [J].Materials Today:Proceedings,2017,4(8):7262-7269.
[20] YANG X S,DEB S.Cuckoo search via Lévy flights [C]//2009 World Congress on Nature & Biologically Inspired Computing.Coimbatore,India:IEEE,2010:210-214.
[21] MARELI M,TWALA B.Global optimisation using Pareto cuckoo search algorithm [J].International Journal of Advanced Computer Research,2017,7(32):164-175.
[22] YANG X S,DEB S.Multiobjective cuckoo search for design optimization [J].Computer & Operations Research,2013,40(6):1616-1624.
[23] SCHAFFER J D.Multiple objective optimization with vector evaluated genetic algorithms [C]// Proceedings of the 1st International Conference on Genetic Algorithms.Pittsburgh:[s.n.],1985:93-100.
[24] DEB K,PRATAP A,AGARWAL S,et al.A fast and elitist multiobjective genetic algorithm:NSGA-Ⅱ [J].IEEE Transactions Evolutionary Computation,2002,6(2):182-97.
[25] FENG X.Multi-objective differential evolution:theory and applications [D].New York:Rensselaer Polytechnic Institute,2004.
[26] MADAVAN N K.Multi-objective optimization using a Pareto differential evolution approach [C]//Proceedings of the 2002 Congress on EvolutionaryComputation. [S.l.]:IEEE,2002:1145-1150.

Optimizing control method for sewage treatment based on improved multi-objective cuckoo algorithm

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