Design of Total Site-Integrated TrigenerationSystem using trigeneration cascade analysis considering transmission losses and sensitivity analysis

journal article in Web of Science

English

Distribution of energy from a Total Site Trigeneration Energy System (TSTES) to fulfil process energy demands can result in transmission losses due to frictions in pipelines and the electrical grid. Sensitivity analysis can be used to design the required backup system to address such risk. Previously, the Trigeneration System Cascade Analysis (TriGenSCA) method that was used to design a TSTES has assumed no transmission losses and ignored the need for a backup utility system. This paper proposes an extension of the TriGenSCA to consider transmission and storage energy losses and sensitivity analysis to enable a trigeneration system involving batch processes to produce realistic energy targets and to design a backup utility system of appropriate capacity. The methodology was applied on a case study involving a Pressurised Water Reactor (PWR) integrated with a trigeneration system within an industrial Total Site comprising four process plants. This study shows an increase of up to 15% in total annual cost for a trigeneration system with transmission losses as compared to the one without transmission losses, and it shows that Plant B shutdown, which requires additional 3.1 MW low-pressure steam and 3.25 MW of hot water represents the worst-case scenario of a single plant shutdown.

Pinch aAnalysis; Sensitivity analysis; Total Site Heat Integration; Total Site Trigeneration Energy System (TSTES); Transmission losses; Trigeneration system

Jamaluddin, K., Wan Alwi, S.R., Manan, A.Z., Hamzah, K., Klemeš, J.J.

1. 8. 2022

Elsevier Ltd

0360-5442

Energy

252

United Kingdom of Great Britain and Northern Ireland

123958

123958

17

https://www-sciencedirect-com.ezproxy.lib.vutbr.cz/science/article/pii/S0360544222008611