Optimal Sizing of a Trigeneration Plant Integrated with Total Site System Considering Multi-period and Energy Losses

Rising awareness for the environment as well concerns over sustainability of fossil fuels has encouraged developed and developing countries to find alternative ways enhance thermal efficiency current power systems. The plants can be increased from 30 – 40 % up 80 90 through implementation a trigeneration system by recovering dissipated waste heat other purposes. defined technology that produce simultaneous power, heating, cooling energy same fuel source. Trigeneration System Cascade Analysis (TriGenSCA) methodology is an optimisation approach based on Pinch been used establish guidelines or proper size system. This paper proposes modification TriGenSCA considering multi-period consumption optimise utility in centralised transmission storage losses Total Site There are six steps involved including data extraction, identification time slices, Problem Table Algorithm (PTA), Multiple Utility (MU PTA), (TS modified TriGenSCA. tested nuclear case study results shown needed Pressurized Water Reactor (PWR) with 2,427 MW whereas PWR without 2,424 MW. consideration useful engineers designers determine exact value plant.