探索土卫六上燃烧的潜力

IF 0.3 Q4 ENGINEERING, AEROSPACE SAE International Journal of Aerospace Pub Date : 2018-04-07 DOI:10.4271/01-11-01-0002
C. Depcik
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引用次数: 3

摘要

由于火星距离地球相对较近,而且有可能维持人类的生命,所以人们一直把注意力集中在火星上。然而,它缺乏原位能源,这对在地表产生所需能源提出了挑战。相比之下,土卫六的大气和湖泊中几乎有无穷无尽的燃料来源,但两者都缺乏氧化能力。在土卫六上发现了一个可能存在的地下液态氨水湖,这表明氧气可能触手可及。这项工作提供了第一个理论研究,涉及土卫六上的初级能源发电系统,该系统使用大气作为燃料,通过风力发电的电解将地下水作为氧气的来源。热力学计算和零维均质电荷压缩点火(HCCI)发动机模型的化学动力学应用表明,在土卫六表面运行内燃机,同时为地球改造和人类活动提供热量确实是可能的。随后的地球化估计表明,虽然存在能量和热量的潜力,但所需硬件的数量在很大程度上是不切实际的。然而,这些发现可能会激发其他人对外太空的进一步好奇,并想象可能发生的事情。2018年4月17日,星期二,Christopher Depcik从SAE International下载
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Exploring the Potential of Combustion on Titan
Significant attention has been focused on Mars due to its relative proximity and possibility of sustaining human life. However, its lack of in-situ sources of energy presents a challenge to generate needed energy on the surface. Comparatively, Titan has a nearly endless source of fuel in its atmosphere and lakes, but both are lacking in regards to their oxidizing capacity. The finding of a possible underground liquid ammonia-water lake on Titan suggests that oxygen might actually be within reach. This effort provides the first theoretical study involving a primary energy generation system on Titan using the atmosphere as a fuel and underground water as the source for the oxygen via electrolysis from wind generated electricity. Thermodynamic calculations and use of chemical kinetics in a zero-dimensional Homogeneous Charge Compression Ignition (HCCI) engine model demonstrate that is indeed possible to operate an internal combustion engine on the surface of Titan while providing heat for terraforming and human activities. Subsequent terraforming estimates illustrate that while the potential for energy and heat exists, the amount of needed hardware is largely impractical. However, the findings may stimulate further curiosity by others to look towards outer space and imagine what might be possible. Downloaded from SAE International by Christopher Depcik, Tuesday, April 17, 2018
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来源期刊
SAE International Journal of Aerospace
SAE International Journal of Aerospace ENGINEERING, AEROSPACE-
CiteScore
0.70
自引率
0.00%
发文量
22
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