Abstract
In this work, MFCA-based approach has been developed to synthesise an optimum wastewater treatment plant (WWTP). To develop the approach, a series of mathematical equations have been generated based on a generic superstructure that presented all possible pathways of WWTP. In this work, four continuous treatment stages (pre-treatment, chemical treatment, biological treatment and tertiary treatment) with various treatment technologies have been considered. In addition, raw material cost, energy cost, labour cost, and waste management cost as well as the hidden cost and carry-forward cost have also been considered in this approach. In this work, hidden cost is referred to the cost that associated with the process stream, while the carry-forward cost is referred to the cost that is carried forward from one process to another process. Furthermore, pollutants (e.g., TSS, COD, BOD and O&G) have also been considered to ensure the discharged water is complied with discharged regulations. To illustrate the developed approach, an industrial case study, has been solved. As results, an optimum sago wastewater treatment process with minimum waste generation cost is synthesised via a commercial optimisation software, LINGO.
Highlights
Due to the dramatic rise of human population and the rapid growth of industries, waste production rate is getting higher
A novel MFCA-based approach is developed in this work for optimum pathway selection of wastewater treatment plant
Hidden cost associated to treatment waste stream is considered using this approach for wastewater treatment plant (WWTP) pathway selection
Summary
Due to the dramatic rise of human population and the rapid growth of industries, waste production rate is getting higher. Wastes can be divided into organic waste (e.g., municipal solid waste (MSW), sewage wastewater, food wastes, etc.) and inorganic waste (e.g., electronic waste, plastics, pesticide, cans, metals, chemical wastes, etc.). Organic waste refers to the waste that consist of biodegradable materials inorganic wastewater refers to the waste that consist of relative stable substances which cannot degradable by organisms [1]. Waste management is a crucial step to reduce environmental issues and to increase economic performance of an industry.
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