ANALYSIS OF BOILER BLOW DOWN PROCESS, AIR INGRESS IN CONDENSER AND EFFECT OF COAL MOISTURE IN 210 MW THERMAL POWER PLANT USING SIM SIMULATOR

Q4 Engineering

Academic Journal of Manufacturing Engineering Pub Date : 2020-03-01 DOI:10.37255/jme.v15i1pp001-006

Mehul Chhowala, Rahul Patel, J. Patel

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引用次数: 2

Abstract

The Thermal Power plant contributes major proportion of installed capability in global power generation system as well as in Indian power generation systems. Therefore, achieving an optimal operation for the same, by conducting parametric study and optimizing few parameters which has a noticeable effect on the power generation may prove beneficial for plant efficiency. The simulation has been the tool for optimal operation and control of different variables in power plant. In addition, it also provides hands on experience to the trainee so that, they can have a better exposure of control room. In this part of the study, for the analysis purpose the SIM simulator (Standard Power Plant simulator) is being used which is comprehensive, dynamic and has a multi-fuel running ability employed with tandem-compound steam turbine-generator which is designed to operate at 210 MW. Moreover, it is also characterized by disturbances and malfunction features along with monitoring provision, which assists in parametric study and generates results in form of graphical representation to predict the effect of parameter on performance of power plant. Currently three parameters are chosen for further study. The effect of blow down process, Air leakage in condenser and coal moisture are selected.

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利用sim模拟器对210 mw火电厂锅炉放空过程、冷凝器进气量及煤湿影响进行了分析

火电厂在全球发电系统和印度发电系统的装机容量中占很大比例。因此，通过对几个对发电有明显影响的参数进行参数化研究和优化，使其达到最优运行，可能有利于提高电厂效率。仿真已成为电厂各变量优化运行和控制的工具。此外，它还为学员提供了实践经验，使他们能够更好地接触控制室。在这一部分的研究中，为了分析目的，使用了SIM模拟器(标准电厂模拟器)，该模拟器是综合的，动态的，具有多燃料运行能力的串联复合汽轮发电机，设计运行功率为210 MW。此外，它还具有扰动和故障特征以及监测功能，有助于参数研究，并以图形表示的形式生成结果，以预测参数对电厂性能的影响。目前选取了三个参数进行进一步研究。选取了吹落过程的影响、冷凝器漏风和煤湿的影响。

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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来源期刊

Academic Journal of Manufacturing Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

0.40

自引率

0.00%

发文量