SEES Fellows: Enabling Energy Efficiency through Integrated Utilities - Technical and Social Challenges to Forward Osmosis Microbial Bioreactors

SEES 研究员：通过综合公用事业提高能源效率 - 推进渗透微生物生物反应器的技术和社会挑战

• 批准号: 1215845
• 负责人: Meagan Mauter
• 金额: $ 49.68万
• 依托单位: Carnegie-Mellon University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-09-15 至 2016-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1215845&HistoricalAwards=false
• 关键词: SEES; Fellows; Enabling; Energy; Efficiency

An essential feature of sustainable urban design is the maximization of resource productivity through efficient exchange of "waste" streams. Forward Osmosis Microbial Bioreactors (FOMBRs) are a novel water reuse technology with the potential to alleviate the growing tension between energy and water resources. Rather than decoupling energy from water, FOMBRs integrate the processes of energy production, wastewater treatment, and drinking water purification in a symbiotic exchange of material byproducts. This project will probe the technical and social challenges to FOMBR implementation.The engineering/materials-related effort will leverage advances in materials science to alleviate membrane biofouling in Forward Osmosis systems for wastewater reuse. Grafted polymeric coatings with different physicochemical properties will be compared, and the interaction between membranes and developing biofilms will be characterized. Feasibility tests and analysis of membrane performance will be carried out on a FOMBR pilot treating municipal sewage from the Ben-Gurion University campus in Israel. The project will also address the urban infrastructure, economic, regulatory, and sociopolitical barriers to FOMBR implementation in a three-tiered approach. Tier one will employ industrial ecology and economic models, including geoinformatics, cost-benefit analysis, social network analysis, and system dynamics, to identify policies that incentivize byproduct transfer among utilities. Tier two integrates sub-models into a generically descriptive system dynamics model and identifies policy deployment scenarios to accelerate FOMBR implementation. Tier three applies systems research in an urban case study to evaluate policy validity under discrete conditions. This project is supported under the NSF Science, Engineering and Education for Sustainability Fellows (SEES Fellows) program, with the goal of helping to enable discoveries needed to inform actions that lead to environmental, energy and societal sustainability while creating the necessary workforce to address these challenges. With SEES Fellows support, this project will enable a promising early career researcher to establish themselves in an independent research career related to sustainability.

可持续城市设计的一个基本特征是通过“废物”流的有效交换来最大化资源生产力。 正向渗透微生物生物反应器 (FOMBR) 是一种新型水回用技术，有可能缓解能源和水资源之间日益紧张的局势。 FOMBR 不是将能源与水分离，而是将能源生产、废水处理和饮用水净化过程整合到物质副产品的共生交换中。 该项目将探讨 FOMBR 实施所面临的技术和社会挑战。工程/材料相关的工作将利用材料科学的进步来减轻废水再利用的正向渗透系统中的膜生物污垢。 将比较具有不同物理化学性质的接枝聚合物涂层，并表征膜和正在形成的生物膜之间的相互作用。 可行性测试和膜性能分析将在处理以色列本古里安大学校园城市污水的 FOMBR 试点中进行。 该项目还将通过三层方法解决 FOMBR 实施中的城市基础设施、经济、监管和社会政治障碍。第一层将利用工业生态学和经济模型，包括地理信息学、成本效益分析、社会网络分析和系统动力学，来确定激励公用事业之间副产品转移的政策。第二层将子模型集成到通用描述性系统动力学模型中，并确定策略部署场景以加速 FOMBR 实施。 第三层在城市案例研究中应用系统研究来评估离散条件下的政策有效性。该项目得到了 NSF 科学、工程和可持续发展教育研究员 (SEES Fellows) 计划的支持，其目标是帮助实现所需的发现，为实现环境、能源和社会可持续发展的行动提供信息，同时创造必要的劳动力来解决这些问题挑战。 在 SEES 研究员的支持下，该项目将使有前途的早期职业研究人员能够在与可持续发展相关的独立研究生涯中确立自己的地位。