Sustainable treatment and utilization of source-separated urine and wastewater using bioelectrochemical systems

利用生物电化学系统可持续处理和利用源头分离的尿液和废水

• 批准号: 435547-2013
• 负责人: Kim, Younggy
• 金额: $ 1.75万
• 依托单位: McMaster University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=636610
• 关键词: Sustainable; treatment; utilization; source; separated

Wastewater (including human urine) has been considered as unwanted "waste" that needs to be treated by consuming energy and other resources. However, organics and nutrients in wastewater can be converted into electricity, hydrogen gas, and land fertilizers (struvite). This research will establish innovative methods to utilize wastewater as a resource for energy and nutrients. Outcomes of this research will provide solutions to the major challenges in wastewater treatment (i.e., energy consumption, nutrient removal, and biosolids). In bioelectrochemical systems (BESs), exoelectrogenic bacteria oxidize organic matter and transfer electrons to the anode, creating electric current. This electrogenic capability enables electric power generation and hydrogen gas production, converting organic contaminants into useful energy sources. In addition, electrode reactions induce ionic movement that can be manipulated to concentrate nutrient ions (ammonium and phosphate ions), by schematically placing ion-exchange membranes (IEMs) in BESs. Highly concentrated nutrients will facilitate struvite recovery from wastewater or human urine. Biosolids treatment and disposal require the major costs in conventional wastewater treatment. Our preliminary study confirmed a very small biosolids production in BESs. Further investigation will optimize BESs for minimal biosolids and maximal substrate removal, suggesting BESs as a promising alternative for wastewater treatment. A pilot-scale study will demonstrate practical wastewater treatment with reduced biosolids and energy recovery. From this research, the wastewater treatment industry will be benefitted with biosolids reduction and energy recovery, minimizing the overall treatment costs. Struvite recovery will create profits from wastewater treatment and also help resolve global phosphorus depletion. Effective nutrient recovery will reduce risks of eutrophication in natural water systems, maintaining a clean environment in Canada. Eventually, this research will provide opportunities to Canada for sustainable and effective wastewater treatment and utilization.

废水(包括人类尿液)一直被认为是不需要的“废物”，需要通过消耗能源和其他资源来处理。然而，废水中的有机物和营养物质可以转化为电力、氢气和土地肥料(鸟粪石)。这项研究将建立利用废水作为能源和营养来源的创新方法。这项研究的结果将为解决废水处理中的主要挑战(即能源消耗、养分去除和生物固体)提供解决方案。在生物电化学系统(BESS)中，外源细菌氧化有机物并将电子转移到阳极，产生电流。这种发电能力使发电和氢气生产成为可能，将有机污染物转化为有用的能源。此外，通过将离子交换膜(IEM)示意性地放置在BESS中，电极反应可引起离子运动，以浓缩营养离子(铵离子和磷酸根离子)。高浓度的营养物质有助于从废水或人类尿液中回收鸟粪石。生物固体的处理和处置需要传统废水处理的主要成本。我们的初步研究证实，在贝斯生产了非常少量的生物固体。进一步的研究将优化BESS以达到最小的生物固体和最大的底物去除，这表明BESS是一种很有前途的废水处理替代方案。一项试点研究将展示减少生物固体和能量回收的实际废水处理。通过这项研究，废水处理行业将受益于生物固体的减少和能源回收，将总体处理成本降至最低。鸟粪石回收将从废水处理中创造利润，并有助于解决全球磷枯竭问题。有效的营养恢复将降低自然水系统富营养化的风险，保持加拿大的清洁环境。最终，这项研究将为加拿大提供可持续和有效的废水处理和利用机会。