Waste heat recovery power generation systems for cement production process

2013 IEEE-IAS/PCA Cement Industry Technical Conference Pub Date : 2013-04-11 DOI:10.1109/CITCON.2013.6525272

A. Amiri, M. Vaseghi

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引用次数: 21

Abstract

Cement production process is highly energy intensive with approximately 3GJ to 4GJ energy consumption per ton of cement produced. Also energy costs are responsible for 25% of total production costs while 75% of primary energy usage is thermal energy. However, the process is characterized by significant amount of heat loss mainly by the flue gases and the air stream used for cooling down the clinker. Waste heat is generated by fuel combustion process or chemical reactions, and then dumped into the environment even though it could still be reused for some useful and economic purposes. Reducing the amount of wasted heat as well as reusing it has been a matter of great concern for the past couple of decades. A heat recovery system could increase the efficiency of the cement plant as well as reducing the amount of CO2 emissions to the environment and by lowering the temperature of the exhaust gases. This paper is an introduction to Waste Heat Recovery Generation (WHRG) systems, their operations and feasibility for cement production process also a review of four common power generation cycles, steam Rankine cycle, organic Rankine Cycle, Kalina cycle and super critical CO2 cycle.

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水泥生产过程余热回收发电系统

水泥生产过程是高能耗的，每生产一吨水泥能耗约为3GJ至4GJ。此外，能源成本占总生产成本的25%，而75%的一次能源使用是热能。然而，该工艺的特点是大量的热损失，主要是由用于冷却熟料的烟气和气流造成的。废热是由燃料燃烧过程或化学反应产生的，然后被排放到环境中，尽管它仍然可以用于一些有用和经济的目的。在过去的几十年里，减少浪费的热量以及对其进行再利用一直是人们非常关注的问题。热回收系统可以提高水泥厂的效率，减少二氧化碳排放到环境中，并降低废气的温度。本文介绍了废热回收发电(WHRG)系统及其在水泥生产过程中的运行情况和可行性，并综述了四种常见的发电循环:蒸汽朗肯循环、有机朗肯循环、Kalina循环和超临界CO2循环。

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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2013 IEEE-IAS/PCA Cement Industry Technical Conference

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