Fluor Solvent Offers Significantly Lower GHG Intensity CO2 Removal from Natural Gas Than MDEA for Horn River

Day 1 Wed, March 16, 2022 Pub Date : 2022-03-11 DOI:10.2118/208912-ms
Morgan Rodwell
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Abstract

As natural gas demand increases through the energy transition, due to shifts away from coal-fired power generation and increased hydrogen utilization, production and processing of high CO2 natural gas sources, such as the Horn River Basin in Northern British Columbia will become more economic and important. The capture process should be energy efficient and provide the lowest GHG intensity possible to ensure the maximum decarbonization benefit. The propylene carbonate-based Fluor SolventSM process provides CO2 capture from natural gas sources at up to 97% lower GHG intensity when compared to the use of a formulated MDEA solvent which was used at the largest plant constructed to date in this field.
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氟溶剂对霍恩河天然气中温室气体强度的去除效果明显低于MDEA
随着能源转型带来的天然气需求增加,由于从燃煤发电转向氢气利用的增加,生产和加工高二氧化碳天然气资源,如不列颠哥伦比亚省北部的合恩河流域,将变得更加经济和重要。捕集过程应该是节能的,并提供尽可能低的温室气体强度,以确保最大的脱碳效益。与迄今为止在该领域建造的最大工厂中使用的配方MDEA溶剂相比,基于碳酸丙烯的氟溶剂sm工艺可从天然气源中捕获二氧化碳,温室气体强度降低97%。
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Day 1 Wed, March 16, 2022
Day 1 Wed, March 16, 2022
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