1. bookVolume 114 (2017): Issue 7 (July 2017)
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
access type Open Access

Different Optimisation Tasks Used in Water Quality Management

Published Online: 26 May 2020
Volume & Issue: Volume 114 (2017) - Issue 7 (July 2017)
Page range: 95 - 112
Journal Details
License
Format
Journal
eISSN
2353-737X
First Published
20 May 2020
Publication timeframe
1 time per year
Languages
English
Abstract

This study presents a methodology for the management of surface water quality which guarantees that the concentrations of pollutants remain within acceptable levels. The paper presents different optimisation tasks that can be used for managing the quality of surface waters. The paper presents calculations for a hydrographic network with both point and non-point pollution sources. The calculations include the total BOD and the dissolved oxygen concentrations. The author shows how different types of optimisation tasks affect the chemical profiles of the receiving water.

Keywords

[1] Qin X.S., Huang G.H., Zeng G.M., Chakma A., Huang Y.F., An interval-parameter fuzzy nonlinear optimization model for stream water quality management under uncertainty, European Journal of Operational Research 180, 2007, 1331–1357.10.1016/j.ejor.2006.03.053Search in Google Scholar

[2] Egemen Aras, Vedat Togan, Mehmet Berkum, River water quality management model using genetic algorithm, Environ Fluid Mech 7, 2007, 439–450.10.1007/s10652-007-9037-4Search in Google Scholar

[3] Huapeng Qin, Jingjing Jiang, Guangtao Fu, Ying Zheng, Optimal water quality management considering spatial and temporal variations in a tidal river, Water Resour Manage 27, 2013, 843–858.10.1007/s11269-012-0218-7Search in Google Scholar

[4] Chih-Sheng Lee, Shui-Ping Chang, Interactive fuzzy optimization for an economic and environmental balance in a river system, Water Research 39, 2005, 221–231.10.1016/j.watres.2004.09.01315607180Search in Google Scholar

[5] Coleman Th, Branch M.A., Grace A., Optimization Toolbox for use with Matlab, 1999, MathWorks, Inc.Search in Google Scholar

[6] Białas-Heltowski K., Determination and evaluation of polyoptim solutions based on the selected technical system, University of Zielona Góra, 2006.Search in Google Scholar

[7] Masatoshi Sakawa, Kosuke Kato, An interactive fuzzy satisficing method for multiobjective nonlinear integer programming problems with block-angular structures through genetic algorithms with decomposition procedures, Hindawi Publishing Corporation, Advances in Operations Research, 2009, Article ID 372548.10.1155/2009/372548Search in Google Scholar

[8] Horst R., Pardalos Panos M., Handbook of Global Optimization, Springer 1995.10.1007/978-1-4615-2025-2Search in Google Scholar

[9] Lee C.S., Wen C.G., Application of Multiobjective Programming to Water Quality Management in a River Basin, Journal of Environmental Management 47, 1996, 11–26.10.1006/jema.1996.0032Search in Google Scholar

[10] Sakawa M., Fuzzy sets and interactive multiobjective optimization, Plenum Press, New York 1993, 149–173.10.1007/978-1-4899-1633-4_5Search in Google Scholar

[11] Liu J., Li Y.P., Huang G.H., Mathematical modeling for water quality management under interval and fuzzy uncertainties, Hindawi Publishing Corporation, Journal of Applied Mathematics, 2013, Article ID 731568.10.1155/2013/731568Search in Google Scholar

[12] Zhu H., Huang G.H., Guo P., SIFNP: Simulation – Based interval – Fuzzy nonlinear programming for seasonal planning of stream water quality management, Water Air Soil Pollution 223, 2013, 2051–2072.10.1007/s11270-011-1004-5Search in Google Scholar

[13] Biedugnis S., Miłaszewski R., Optimization methods in water supply and sewerage, Wydawnictwo Naukowe PWN, Warszawa 1993.Search in Google Scholar

[14] Bielski A., Application of optimization methods in the design of protection zones for surface water intakes, Politechnika Krakowska, Zeszyt Naukowy nr 3, Kraków 1997.Search in Google Scholar

[15] Biswas A. K., Models for Water quality management, McGraw-Hill Inc. 1981.Search in Google Scholar

[16] Haimes Y. Y., Hierarchical analyses of water resources systems, McGraw-Hill Inc. 1977.Search in Google Scholar

[17] Bielski A., Equilibrium, kinetics of change and transport of substances in the aquatic environment, Politechnika Krakowska, Kraków 2010.Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo