A Simulation Approach to Minimize Water Supply, Water Storage Capacity, and Water Treatment Capacity Requirements in an Advanced Life Support System for Mars Missions

Habitation (Elmsford, N.Y.) Pub Date : 2008-09-01 DOI:10.3727/154296608785908642

C. Ang, Yuehwern Yih

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引用次数: 2

Abstract

In this study, the relationship among crewmembers and crops water consumption and production, water treatment capacity, water storage tank capacity, and water supply required from Earth is explored. Two mission durations and two scenarios are studied to investigate the impact of mission duration and crops addition, respectively, on water subsystem cost. Results show that increase in water treatment capacity can effectively reduce water storage tank equivalent system mass (ESM) to a certain extent. Mission duration affects water storage tank ESM unless water removal technology and in situ resource utilization (ISRU) are added into the crewmembers-only and crewmembers-and-crops scenarios, respectively, in addition to the water treatment process at optimal capacity. Although the results are system specifi c, it demonstrates that trade study analysis can be performed to evaluate the trade off of water treatment technologies, water removal technologies, and ISRU technologies against water storage tank and supply using ESM.

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在火星任务的先进生命维持系统中最小化水供应、水储存能力和水处理能力要求的模拟方法

本研究探讨了航天员与农作物耗水量和产量、水处理能力、储水罐容量、从地球所需供水量之间的关系。研究了两种任务持续时间和两种情景，分别考察了任务持续时间和作物添加对水子系统成本的影响。结果表明，提高水处理能力可在一定程度上有效降低储水箱等效系统质量(ESM)。任务持续时间会影响储水箱ESM，除非在仅限机组人员和机组人员和作物情景中分别添加除水技术和就地资源利用(ISRU)，以及在最佳容量下进行水处理过程。尽管结果是特定于系统的，但它表明，可以进行贸易研究分析，以评估水处理技术、除水技术和ISRU技术与使用ESM的储罐和供应的权衡。

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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Habitation (Elmsford, N.Y.)

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