甲烷捕集技术的突破:减少能源行业甲烷散逸性排放的关键

Wenkang Deng , Xiaofeng Xie , Yalou Guo , Guoping Hu
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摘要

温室气体排放造成的一系列负面影响促使人类寻找更高效、更经济的减排策略。甲烷是第二大最丰富的人为温室气体,实施具有成本效益的技术来减少甲烷排放是实现《巴黎协定》所列阶段性目标的重要途径。与其他部门(如农业和废物处理)相比,能源部门的甲烷减排潜力更大,利用现有技术到 2050 年可实现 75% 的减排量。捕获和利用能源部门的逸散甲烷可在一定程度上抵消减排成本。我们分析了现有的甲烷减排技术,如泄漏检测和修复、燃烧、技术标准和甲烷捕集技术,发现对于中高浓度的甲烷泄漏已有成熟的解决方案。然而,从低浓度来源捕获甲烷以满足运输或利用要求仍然是一项重大的技术挑战,这凸显了低品位甲烷富集技术进步的必要性。近几十年来,吸附技术一直被认为是一种很有前景的甲烷捕集方法,因为它具有各种优势,如灵活性高、资本投资和能耗低以及技术框架完善等。本综述概述了最近的甲烷排放趋势和流行的甲烷减排策略,简要分析了工业应用中现有甲烷捕集技术的优缺点。我们分析了主要经济体当前的甲烷减排政策,并指出了拟议政策与实际行动之间的差距,建议构建甲烷检测系统和开发低浓度甲烷捕获技术是缩小差距的关键方法。
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Breakthroughs in CH4 capture technologies: Key to reducing fugitive methane emissions in the energy sector
A series of negative impacts caused by greenhouse gas emissions have driven mankind to look for a more efficient and economical strategy to reduce emissions. Methane is the second most abundant anthropogenic greenhouse gas, and implementing cost-effective technologies to reduce its emissions is a crucial pathway toward achieving the milestones outlined in the Paris Agreement. The energy sector has a greater potential for methane emission reductions than other sectors, such as (agriculture and waste) with 75 % reductions achievable by 2050 using existing technologies. Capturing and utilizing fugitive methane from the energy sector could offset the cost of emission reductions to some extent. We analyzed existing methane abatement technologies such as leak detection and repair, flaring, technology standards, and methane capture technologies and found that there are well-established solutions for methane leakage at medium and high concentrations. However, capturing methane from low-concentration sources to meet transportation or utilization requirements remains a significant technical challenge, highlighting the need for advances in low-grade methane enrichment technologies. Adsorption technology has been regarded as a promising methodology for methane capture in recent decades due to various advantages such as high flexibility, low capital investment and energy consumption, and a well-established technological framework. This review provides an overview of recent methane emission trends and prevalent methane abatement strategies, offering a brief analysis of the merits and drawbacks associated with existing methane capture technologies for industrial applications. We analyze the current methane emission reduction policies from major economies and identify a gap between proposed policies and practical actions, suggesting that constructing methane detection systems and developing low-concentration methane capture technologies is a key approach to closing the gap.
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