可持续废水回用于农业

Anastasis Christou, Vasiliki G. Beretsou, Iakovos C. Iakovides, Popi Karaolia, Costas Michael, Tarik Benmarhnia, Benny Chefetz, Erica Donner, Bernd Manfred Gawlik, Yunho Lee, Teik Thye Lim, Lian Lundy, Roberta Maffettone, Luigi Rizzo, Edward Topp, Despo Fatta-Kassinos
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摘要

有效管理水资源对于全球粮食安全和可持续发展至关重要。在本综述中,我们探讨了经处理的废水(TW)回用于灌溉的潜在效益和挑战。目前,全球每年产生 400 千立方米废水,但其中 20% 经过处理,根据地区不同,只有 2-15% 的废水回用于灌溉。废水用于灌溉的主要限制因素是目前的处理技术无法完全去除所有微污染物和新出现的污染物,其中一些对作物、环境和健康的影响尚不清楚。然而,先进的水处理和回用方案在水质监测和法规的支持下,可以为农业生产提供稳定的水供应,这在美国和以色列等地区得到了验证。由于废水中蕴含的能量超过处理需求的 9 到 10 倍,因此这些计划有可能成为净能源。氮、磷和钾等对农业有用的营养物质也可以回收和再利用。经处理的废水回用于灌溉可为循环经济和可持续发展做出重大贡献,但首先需要为先进的可持续处理技术提供资金并加以实施,同时还需要得到社会的认可。经处理的废水(TW)回用于灌溉可缓解缺水地区的水资源失衡问题,提高粮食产量,从而促进全球粮食和水资源安全。本综述讨论了在循环经济框架下将废水广泛回用于农业的潜力和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sustainable wastewater reuse for agriculture

Sustainable wastewater reuse for agriculture

Sustainable wastewater reuse for agriculture
Effective management of water resources is crucial for global food security and sustainable development. In this Review, we explore the potential benefits and challenges associated with treated wastewater (TW) reuse for irrigation. Currently, 400 km3 yr−1 of wastewater is generated globally, but <20% is treated, and of that TW, only 2–15% is reused for irrigation depending on region. The main limitation of TW for irrigation is the inability of current treatment technologies to completely remove all micropollutants and contaminants of emerging concern, some of which have unknown impacts on crops, environment and health. However, advanced water treatment and reuse schemes, supported by water quality monitoring and regulations, can provide a stable water supply for agricultural production, as demonstrated in regions such as the USA and Israel. Such schemes could potentially serve a net energy source, as the embedded energy in wastewater exceeds treatment needs by 9 to 10 times. Agriculturally useful nutrients such as nitrogen, phosphorus and potassium could be also recovered and reused. TW reuse for irrigation could act as a major contributor to a circular economy and sustainable development, but the first steps will be funding and implementation of advanced and sustainable treatment technologies and social acceptance. Treated wastewater (TW) reuse for irrigation could alleviate water imbalances and boost food production in water-scarce regions, thus promoting global food and water security. This Review discusses the potential and challenges of widespread TW reuse for agriculture in a circular economy framework.
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