Offshore green ammonia synthesis

0 CHEMISTRY, MULTIDISCIPLINARY Nature synthesis Pub Date : 2023-06-01 DOI:10.1038/s44160-023-00309-3
Nicholas Salmon, René Bañares-Alcántara
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Abstract

The global potential for renewable energy production far exceeds global energy demand. However, the accessibility of renewable energy is constrained by existing land use, the need to preserve protected areas and the costs associated with transporting energy over large distances. As a consequence, finite renewable energy capacity must be carefully matched to appropriate end uses. In this Perspective, we advocate the production of green ammonia on the ocean to address this policy challenge: local renewables should be used to generate electricity with high efficiency, whereas comparatively low-efficiency chemical energy storage in the form of ammonia should occur further away from energy consumers and be transported at relatively low costs. We describe the synthesis processes to be adopted, the techno-economic basis for this resource allocation, and the technical developments required that can enable this energy system to be established. Green ammonia will play an important function in decarbonized energy systems but its production places a high burden on limited renewable resources in land-constrained countries. Here we propose the offshore production of green ammonia, which can increase energy security without land competition.

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近海绿氨合成
全球可再生能源生产潜力远远超过全球能源需求。然而,可再生能源的获取受到现有土地使用、保护区的需要以及远距离运输能源的成本等因素的制约。因此,有限的可再生能源能力必须与适当的最终用途谨慎匹配。在本《视角》中,我们提倡在海洋上生产绿色氨气,以应对这一政策挑战:当地可再生能源应用于高效发电,而氨气形式的相对低效化学储能则应用于远离能源消费者的地方,并以相对较低的成本进行运输。我们介绍了将采用的合成工艺、这种资源分配的技术经济基础,以及建立这种能源系统所需的技术发展。绿色氨将在去碳化能源系统中发挥重要作用,但其生产对土地有限国家的有限可再生资源造成了沉重负担。在此,我们提出了离岸生产绿色氨气的建议,它可以在不与土地竞争的情况下提高能源安全。
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