M. Suresh scite author profile

SUMMARYThe objective of the study is to identify the 'best' possible power plant configuration based on 3-E (namely energy, exergy, and environmental) analysis of coal-based thermal power plants involving conventional (subcritical (SubC)) and advanced steam parameters (supercritical (SupC) and ultrasupercritical (USC)) in Indian climatic conditions using high ash (HA) coal. The analysis is made for unit configurations of three power plants, specifically, an operating SubC steam power plant, a SupC steam power plant, and the AD700 (advanced 7001C) power plant involving USC steam conditions. In particular, the effect of HA Indian coal and low ash (LA) reference coal on the performance of these power plants is studied. The environmental impact of the power plants is estimated in terms of specific emissions of CO 2 , SO x , NO x , and particulates. From the study, it is concluded that the maximum possible plant energy efficiency under the Indian climatic conditions using HA Indian coal is about 42.3% with USC steam conditions. The results disclose that the major energy loss is associated with the heat rejection in the cooling water, whereas the maximum exergy destruction takes place in the combustor. Further, the sliding pressure control technique of load following results in higher plant energy and exergy efficiencies compared to throttle control in part-load operation.

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ANN-GA based optimization of a high ash coal-fired supercritical power plant

Suresh

Reddy

Kolar

2011

Applied Energy

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Feature Selection by Hybrid Brain Storm Optimization Algorithm for COVID-19 Classification

Bezdan

Živković

Bačanin

et al. 2022

Journal of Computational Biology

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M. Suresh

A review on biodiesel production, combustion, performance, and emission characteristics of non-edible oils in variable compression ratio diesel engine using biodiesel and its blends

4-E (Energy, Exergy, Environment, and Economic) analysis of solar thermal aided coal-fired power plants

3-E analysis of advanced power plants based on high ash coal

ANN-GA based optimization of a high ash coal-fired supercritical power plant

Feature Selection by Hybrid Brain Storm Optimization Algorithm for COVID-19 Classification

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