Energy, Exergy and Economic (3E) Analysis and Optimization of a Combined Heat and Power (CHP) Plant

2021 24th International Conference on Mechatronics Technology (ICMT) Pub Date : 2021-12-18 DOI:10.1109/ICMT53429.2021.9687234

N. Huy, Dang Van Hai, N. Phu

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Abstract

In this paper, a combined gas-steam power plant using exhaust heat to produce hot water is estimated in terms of energy, exergy and economics (3E). The examined parameters included the pressure ratio of the air compressor $(\mathbf{r}_{\mathbf{p}})$, the gas turbine inlet temperature, the steam turbine inlet pressure and the condenser pressure to evaluate thermal performance, exergy performance, and total annual cost (TAC). The mathematical model was established and solved in the environment of Engineering Equation Solver (EES) with comparison of results from the Aspen HYSYS simulator. The calculation results show that the exergy efficiency is maximum at $\mathbf{r}_{\mathrm{p}}=\mathbf{11}$. TAC is strongly influenced by gas cycle operating parameters. The minimum TAC can obtain at the steam turbine inlet pressure of 5,300 kPa. Overall optimization reveals maximum efficiencies and minimum cost at pressure ratio of 8.65, gas turbine inlet temperature of 1460 K, the smallest condenser pressure, and the highest steam turbine inlet pressure.

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热电联产电厂的能源、能源和经济(3E)分析与优化

本文对利用余热生产热水的燃气-蒸汽联合电厂进行了能源、能源和经济(3E)估算。检查参数包括空压机压力比$(\mathbf{r}_{\mathbf{p}})$，燃气轮机进口温度，汽轮机进口压力和冷凝器压力，以评估热性能，火用性能和年总成本(TAC)。建立了数学模型，并在工程方程求解器(EES)环境下进行了求解，并与Aspen HYSYS仿真器的结果进行了比较。计算结果表明，在$\mathbf{r}_{\ mathbf{p}}=\mathbf{11}$时，火用效率最大。气体循环运行参数对TAC的影响很大。汽轮机进口压力为5300 kPa时可获得的最小TAC。整体优化结果表明，在压力比为8.65、燃气轮机进口温度为1460 K、冷凝器压力最小、汽轮机进口压力最高时，效率最高、成本最低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 24th International Conference on Mechatronics Technology (ICMT)

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