微波加热碎石中原油制取高纯度无二氧化碳氢气

Q. Yuan, Xiangyu Jie, Bo Ren
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引用次数: 2

摘要

在过去的150年里,虽然对碳氢化合物资源的需求不断增加,但该行业却因二氧化碳(CO2)排放和随之而来的全球变暖问题而受到批评。在持续的能源转型中,油气行业也面临着越来越大的压力。从石油储层中直接产生氢气(H2)有可能减轻对环境的影响,同时彻底改变传统的石油工业,使其成为一个清洁的氢工业。本文提出了一种利用微波加热技术从丰富的油气资源中制取高纯度、无co2的氢气的新方法。在这项工作中,进行了实验室实验来验证这一科学概念,并研究了碎石、催化剂和水/油比在反应器中原油制氢中的作用。在生成的混合气体中,最终氢含量最高可达63%,而所有实验的原始co2含量均可忽略不计(<1%)。催化剂可以通过加速速率和局部增强微波(MW)吸收来促进氢的产生,从而产生“超级热点”。水也参与反应,并且通过水气转移反应产生额外的氢。多孔岩石的水油比影响最终产氢量。总的来说,这项研究证明了利用兆瓦加热从原位油藏中产生高纯度、无二氧化碳的氢气的巨大潜力。该技术的进一步研究和广泛应用将有可能将油气藏转化为氢气发生器,从而减轻传统石油工业对环境的影响,同时满足人们对清洁氢能源日益增长的需求。这项技术还将有利于向脱碳社会的安全过渡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-Purity, CO2-Free Hydrogen Generation from Crude Oils in Crushed Rocks Using Microwave Heating
While the demand for hydrocarbon resources has been continuously increasing in the past 150 years, the industry is, however, criticized for carbon dioxide (CO2) emissions and concomitant global warming concerns. The oil and gas industry also face growing pressures in the ongoing energy transition. Generating and producing hydrogen (H2) directly from petroleum reservoirs has the potential to mitigate environmental impacts while revolutionizing the traditional petroleum industry and enabling it to become a clean hydrogen industry. This paper proposes a novel approach to generate high-purity, CO2-free hydrogen from the abundant oil and gas resources in petroleum reservoirs using microwave heating. In this work, laboratory experiments were conducted to validate this scientific proof-of-concept and examine the roles of crushed rocks, catalysts, and water/oil ratio in hydrogen generation from crude oils in a reactor. A maximum of 63% ultimate hydrogen content is obtained in the generated gas mixtures, while the original CO2content in all experiments is negligible (<1%). Catalysts can promote hydrogen generation by accelerating rate and locally enhancing microwave (MW) absorption to create ‘super-hot spots'. Water also participates in reactions, and additional hydrogen is generated through water-gas shift reactions. The water-oil ratio in porous rocks affects the ultimate hydrogen yield. Overall, this research demonstrates the great potential of using MW heating to generate high-purity, CO2-free hydrogen from in situ petroleum reservoirs. Further research and wide application of this technology would potentially transform petroleum reservoirs to hydrogen generators, thus mitigating the environmental impacts of traditional petroleum industry while meeting the increasing demand for clean hydrogen energy. This technology would also benefit the safe transition towards a decarbonized society.
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