Optimal design of distributed treatment systems for the effluents discharged to the rivers Academic Article uri icon

abstract

  • This paper presents a methodology for the optimal synthesis of distributed treatment systems of effluents discharged into a main river to meet water discharge quality constraints. The methodology is based on a new superstructure that is formulated and solved as a multiobjective mixed-integer nonlinear programming model. A material flow analysis technique is used to track the pollutants through the watershed considering the combined effects of the inputs, outputs (i.e., agricultural, residential, industrial, and so on) and the chemical transformations. A disjunctive programming model is implemented for selecting the optimal location of the distributed treatment system. Prior to the optimization and based on the pollutants considered, a discretization approach is implemented to determine from simulation the removal efficiency and the unit cost of given configurations and operating conditions of the selected treatment units. Therefore, the optimization process determines the removal efficiency used to treat the effluents and the flow rate treated. Simultaneous minimization of the total annual cost of the distributed treatment system and the contaminant concentration of the discharge to the catchment of the watershed are considered as two objective functions. Three case studies (one in Mexico and two in Egypt) have been selected to illustrate the methodology. Results show that significant savings can be obtained when the distributed treatment system is implemented. Finally, the proposed methodology can be used for supporting governmental decisions (i.e., it provides the investment required for a specific water quality). US Government 2012.

published proceedings

  • CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY

author list (cited authors)

  • Burgara-Montero, O., Maria Ponce-Ortega, J., Serna-Gonzalez, M., & El-Halwagi, M. M.

citation count

  • 22

complete list of authors

  • Burgara-Montero, Oscar||Maria Ponce-Ortega, Jose||Serna-Gonzalez, Medardo||El-Halwagi, Mahmoud M

publication date

  • October 2012