Reduction and Capture of Green House Gas Emissions from an Oil Refinery with Amine/Piperazine- and Amine/Sulfolane-Based Solvents

Q3 Environmental Science
A. Al Ghamdi
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引用次数: 0

Abstract

This paper focuses on the emissions of greenhouse gases (GHG) from petroleum/petrochemical refineries which are predominantly in the form of CO2. A refinery located in the Gulf is selected and methodologies to reduce and capture CO2 are presented. The refinery emits approximately 775 tonnes/year CO2. A sound energy policy, robust process control, careful operation of motor driven equipment and process heaters could lead to appreciable reduction of these emissions. After reduction, the capture of remaining CO2 emissions with PZ (piperazine) and sulfolane-based smine solvents is simulated and optimized to get minimum re-boiler duty in the stripper. The process simulator ASPEN software is used for simulations. The optimization results indicate that PZ-based amine solvent performs better than sulfolane-based amine when H2S in the flue gas is in small amounts. The re-boiler duty seems to depend upon the temperature of the stripper feed. It is proposed that heat exchanger design be improved that exchanges heat between lean and rich amines.
用胺/哌嗪和胺/磺胺基溶剂减少和捕获炼油厂温室气体排放
本文的重点是石油/石化炼油厂的温室气体(GHG)的排放,主要以二氧化碳的形式。选择了位于海湾的一家炼油厂,并介绍了减少和捕获二氧化碳的方法。该炼油厂每年排放约775吨二氧化碳。合理的能源政策,稳健的过程控制,电机驱动设备和过程加热器的谨慎操作可以显著减少这些排放。还原后,模拟和优化PZ(哌嗪)和磺胺基smine溶剂捕获剩余CO2排放,以获得最小的汽提塔再锅炉负荷。采用过程模拟软件ASPEN进行仿真。优化结果表明,当烟气中硫化氢较少时,pz基胺溶剂的脱硫性能优于磺胺基胺溶剂。再沸器负荷似乎取决于汽提塔进料的温度。建议改进换热器的设计,使其在贫胺和富胺之间进行换热。
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
Environmental Research, Engineering and Management
Environmental Research, Engineering and Management Environmental Science-Environmental Engineering
CiteScore
2.40
自引率
0.00%
发文量
32
期刊介绍: First published in 1995, the journal Environmental Research, Engineering and Management (EREM) is an international multidisciplinary journal designed to serve as a roadmap for understanding complex issues and debates of sustainable development. EREM publishes peer-reviewed scientific papers which cover research in the fields of environmental science, engineering (pollution prevention, resource efficiency), management, energy (renewables), agricultural and biological sciences, and social sciences. EREM’s topics of interest include, but are not limited to, the following: environmental research, ecological monitoring, and climate change; environmental pollution – impact assessment, mitigation, and prevention; environmental engineering, sustainable production, and eco innovations; environmental management, strategy, standards, social responsibility; environmental economics, policy, and law; sustainable consumption and education.
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