How to Survive at Point Nemo? Fischer–Tropsch, Artificial Photosynthesis, and Plasma Catalysis for Sustainable Energy at Isolated Habitats

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
lgor Levchenko, Shuyan Xu, Oleg Baranov, Kateryna Bazaka
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Abstract

Inhospitable, inaccessible, and extremely remote alike the famed pole of inaccessibility, aka Point Nemo, the isolated locations in deserts, at sea, or in outer space are difficult for humans to settle, let alone to thrive in. Yet, they present a unique set of opportunities for science, economy, and geopolitics that are difficult to ignore. One of the critical challenges for settlers is the stable supply of energy both to sustain a reasonable quality of life, as well as to take advantage of the local opportunities presented by the remote environment, e.g., abundance of a particular resource. The possible solutions to this challenge are heavily constrained by the difficulty and prohibitive cost of transportation to and from such a habitat (e.g., a lunar or Martian base). In this essay, the advantages and possible challenges of integrating Fischer–Tropsch, artificial photosynthesis, and plasma catalysis into a robust, scalable, and efficient self-contained system for energy harvesting, storage, and utilization are explored.

Abstract Image

Abstract Image

如何在尼莫角生存?费托,人工光合作用和等离子体催化在孤立栖息地的可持续能源
荒凉、难以到达、极其偏远的地方,就像著名的难以到达的极点,又名尼莫点,在沙漠、海上或外太空的孤立地点,人类很难定居,更不用说在其中繁衍生息了。然而,它们为科学、经济和地缘政治提供了一系列难以忽视的独特机会。定居者面临的关键挑战之一是稳定的能源供应,既要维持合理的生活质量,又要利用偏远环境所提供的当地机会,例如,丰富的特定资源。这一挑战的可能解决办法受到往返这样一个栖息地(例如月球或火星基地)的运输困难和高昂费用的严重限制。本文探讨了将费托、人工光合作用和等离子体催化整合成一个强大、可扩展、高效的能量收集、储存和利用系统的优势和可能面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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