Water-Energy Nexus Cascade Analysis (WENCA) for Simultaneous Water-Energy System Optimisation
Idris, Ahmad Muzammil
Ho, Wai Shin
Hui, Liu Wen
Ramli, Ahmad Fakrul
Mohtar, Aminullah
Hashim, Haslenda
Muis, Zarina Ab
Lim, Jeng Shiun
Liew, Peng Yen
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How to Cite

Idris A. M., Ho W. S., Hui L. W., Ramli A. F., Mohtar A., Hashim H., Muis Z. A., Lim J. S., Liew P. Y., 2018, Water-Energy Nexus Cascade Analysis (WENCA) for Simultaneous Water-Energy System Optimisation, Chemical Engineering Transactions, 63, 271-276.
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Abstract

This paper presents a new numerical method called the Water-Energy Nexus Cascade Analysis (WENCA), developed based on the principal of Pinch Analysis. Water and energy are both valuable resources that are majorly used in industrial processes. Both water and energy are interdependent where increasing water demand will increase the energy demand and vice versa. In this paper, WENCA is introduced to simultaneously optimise both water and energy system that is interdependent. The methodology applies Cascade Analysis to individually optimise both system. As both systems are interdependent, altering one of the system will result in a change to the other system. An iterative method is then introduced to converge the analysis to obtain the optimal result for both systems. A case study comprising of both electricity and water demand of 6,875 kWh and 3,000 m3 from a residential area with 1,000 unit of houses is applied in this work. The electricity demand is met using fuel cell where hydrogen is produced through coal gasification (which utilised water as it raw material), a water treatment plant (WTP) is also introduced for water treatment to fulfil the water demands. The optimal result reveals that the WTP capacity is 3,200.73 m3, its corresponding water storage tank capacity is 175 m3, hydrogen power plant is 9 MW and its corresponding energy storage capacity is 4.13 MW.
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