Direct recycling of human hygiene water into hydroponic plant growth systems.

Life support & biosphere science : international journal of earth space Pub Date : 1999-01-01

C A Loader, J L Garland, L H Levine, K L Cook, C L Mackowiak, H R Vivenzio

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Abstract

Direct recycling of gray water (human hygiene water) through plant production systems would reduce the need for additional space, mass, and energy for water reclamation in Advanced Life Support (ALS) systems. A plant production system designed to produce 25% of crew food needs could theoretically purify enough water through transpiration for 100% of crew water requirements. This scenario was tested through additions of shower and laundry water to recirculating hydroponic systems containing either wheat or soybean. Surfactant (Igepon TC-42) did not accumulate in the systems, and both the rate of surfactant disappearance and the proportion of Igepon-degrading microorganisms on the plant roots increased with time. A mechanism of surfactant degradation via the microbially ally mediated hydrolysis of the amide linkage and subsequent breakdown of fatty acid components is proposed. Fecal coliforms present in the human gray water were not detectable on the plant roots, indicating that human-associated microorganisms do not grow in the system. Overall plant growth was unaffected by gray water additions, although preliminary evidence suggests that reproduction may be inhibited.

本刊更多论文

将人类卫生用水直接循环到水培植物生长系统中。

通过植物生产系统直接循环利用灰水（人类卫生用水），可减少高级生命支持系统（ALS）中水回收所需的额外空间、质量和能源。理论上，一个能生产 25% 船员食物需求的植物生产系统，通过蒸腾作用净化的水量足以满足 100% 的船员用水需求。通过向含有小麦或大豆的循环水培系统中添加淋浴水和洗衣水，对这一方案进行了测试。表面活性剂（Igepon TC-42）没有在系统中积累，而且表面活性剂的消失速度和植物根部降解 Igepon 的微生物比例都随着时间的推移而增加。该研究提出了一种表面活性剂降解机制，即由微生物介导的酰胺链水解和随后的脂肪酸成分分解。植物根系上检测不到人类灰水中的粪大肠菌群，这表明与人类有关的微生物不会在该系统中生长。虽然初步证据表明植物的繁殖可能会受到抑制，但植物的整体生长不受灰水添加的影响。

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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Life support & biosphere science : international journal of earth space

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