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叙述了氢及其同位素的性质,提出了几种制氢的方案,并通过电解水制氢和在切割上代替氧(乙炔的应用取得的成果,为氢取代矿物燃料而走进家庭的研究打下基础。氢可储存,氢也可在交通上作为燃料,并且没有污染,是未来的重要能源之一。 相似文献
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海洋氢能作为一种清洁、低碳、高效且可再生的能源,逐渐成为目前我国实现“双碳”目标的重要能源载体,其开发对我国具有重大战略意义。但由于海洋氢能起步晚,目前存在技术成熟度不高、政策支撑较少、法律配套不完善等诸多困难。同时存在海域管辖权竞合、海洋环境污染、海洋生物多样性破坏以及国际合作开发难等问题。关于海洋氢能开发法律规制问题,在国际法层面,以《联合国宪章》《联合国海洋法公约》等基本法构建海洋氢能国际合作开发以及海洋环境保护的基本法律框架,以《生物多样性公约》和《BBNJ协定》为基础进一步对海洋环境污染和保护海洋生物多样性提出法律规范;在国内法层面,通过现有能源领域法律法规可知,《可再生能源法》填补海洋氢能开发法律空白;在海洋环境领域,我国法律法规对海洋氢能开发提出了环境影响评价的要求,以保障海洋生态环境不受侵害。综上所述,海洋氢能开发利用应当完善国内相关立法,制定有针对性的海洋氢能领域环境影响评价制度,以促成国际开发与合作。这些完善建议旨在为海洋氢能开发提供清晰的法律指导,促进其可持续发展和利用,同时保护海洋环境和社会稳定。 相似文献
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Mengkui TIAN Wenfeng SHANGGUAN Shijie WANG Ziyuan OUYANG 《中国地球化学学报》2006,25(B08):121-122
From primitive wood to nowadays fossil fuels such as coal, oil and natural gas, it can be seen that the forms of energy becomes more and more diverse and the core trend of decarburization is also obvious (the rate of the element of H to C ranging from 1/10, 1/2-1, 2, to 4 in wood, coal, oil and natural gas, respectively). Although the content of C in current main fuels becomes less and less, the excess exploitation and extensive utilization of various fossil fuels are widely recognized to be responsible for the deterioration of the environment (greenhouse effect, acid rain, photochemical pollution, etc.). With the roar consumption of energy to maintain the development of human society and taking the environmental problems into consideration, it is inevitable to develop renewable energy containing more H and less C as possible. Under these circumstances, the development of H2 energy is the certain and ultimate choice for its high energy per unit, diversity resources, no pollution to environment and ideal renewable utilization cycle. There are so many methods and ways were employed to develop HE energy, such as electrolysis, methane stream reforming process, coal gasification, etc., but there lies two main problems in current methods and ways, those are the cost of bulk of first energy to extract HE from fossil raw materials and still facing the problems of C deposition (carbon dioxide). Consequently, if considering the cost and environmental issues, the development of HE energy must resort to renewable energy sources such as solar energy, wind energy to extract HE from water. Based on this context, the development of HE energy by semiconductor photocatalyst to split water into HE and O2 under the irradiation of solar energy, photocatalysis process in short word, is one of the most promising ways. In this review, the importance and necessity to develop hydrogen energy were intensively studied based on the relationship between energy consumption and environment effect. Then the current ways and methods to develop hydrogen were reviewed, especially the state-of-the-art photocatalysis process (from the semiconductor photocatalyst materials perspective). 相似文献
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为适应广大科技工作者了解国外新能源的发展态势,从而关注我国新能源发展前景,集中编辑了有关生物质能、生物柴油、太阳能、风能、地热、氢能等多种新能源的国内外发展态势,分析了各自的开发利用潜力和前景,以供大家借鉴,有利于开展某些项目的研发。相信不久的将来,我国新能源事业,能尽快走上“快车道”、“高速路”。 相似文献
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氢能是中国能源系统低碳转型和实现2060年前碳中和目标的重要技术选择之一。根据原料来源可以将氢分为绿氢、蓝氢和灰氢,其制备成本和碳排放强度存在较大差异。文中以中国氢能生产现状为基础,建立基于学习曲线的平准化制氢成本(LCOH)模型,测算不同制氢技术从2020年到2060年的成本变化趋势。结果表明:现阶段灰氢成本最低,绿氢成本最高;到2030年绿氢成本将下降至20~25元/kg;2050年后,绿氢将成为成本最低的制氢方式(含碳排放成本),而且PEM(质子交换膜)电解水制氢的成本将低于AE(碱性)电解水制氢,光伏+PEM电解水制氢成本将下降至12元/kg。电解槽和电力成本下降是未来绿氢成本下降的主要驱动因素。敏感性分析表明,运营维护成本和关键技术学习率是影响绿氢成本下降速度的重要参数。 相似文献
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为应对世界气候变化并丰富能源供给手段,实现碳中和目标,世界主要发达国家和地区均在2020年制定了本国的氢能战略,将发展氢能产业提升到国家能源战略的高度,旨在于2030—2050年间完成CO2减排目标。详细介绍了世界各国的氢能发展战略、发展氢能在解决能源安全和生态安全中起到的作用、氢能制取的技术路线以及发展氢能带来的经济效益和社会效益,并着重介绍了地质工作在国家氢能战略部署和实施中的作用,主要包括: ①要保证充足的制氢原材料供给,需要大力勘探开发天然气、页岩气等化石能源; ②为封存制氢过程中产生的CO2,地质工作者需要对储层和盖层开展详细的地质勘查; ③在发展大规模地质储氢中发挥作用,如地下盐穴储氢、废弃油藏储氢等。结合国情,我国应大力发展从煤气化制氢到CO2管道运输,再到CO2驱油及地质封存的一体化产业链,实现经济和社会的双收益。可为我国加速推进氢能战略部署提供借鉴。 相似文献