Validated innovative approaches for energy-efficient resource recovery and re-use from municipal wastewater: From anaerobic treatment systems to a biorefinery concept

Akyol Cagri; Foglia Alessia; Ozbayram Emine Gozde; Frison Nicola; Katsou Evina; Eusebi Anna Laura; Fatone Francesco

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Validated innovative approaches for energy-efficient resource recovery and re-use from municipal wastewater: From anaerobic treatment systems to a biorefinery concept

机译：经过验证的节能资源回收和从城市废水再使用的创新方法：从厌氧治疗系统到生物遗料概念

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The development of innovative technologies in wastewater treatment create the concept of biorefinery in wastewater treatment plants (WWTPs), placing anaerobic processes in the highlight. Starting from the conventional anaerobic treatment processes to 'closing the loop' scheme, next generation WWTPs are ready to serve for water, energy and materials mining. While bioenergy is still dominating the resource recovery, recovery of value-added materials (i.e. struvite, biopolymers, cellulose) are receiving significant attention in recent years. So, what are the state-of-the-art approaches for energy-efficient resource recovery and re-use from municipal wastewater? This paper follows a critical review on the validated technologies in operational environment available and further suggests possible market routes for the recovered materials in WWTPs. Considering the development and verification of a novel technology together with the valorization of the obtained products, biorefinery and resource recovery approaches were gathered in this review paper from a circular economy point of view. General currently-faced barriers were briefly addressed to pave the way to create to-the-point establishments of resource recovery facilities in the future.

机译：废水处理中创新技术的发展在污水处理厂（WWTPS）中创造了生物遗产的概念，将厌氧过程放在亮点中。从传统的厌氧处理过程开始“关闭环路”方案，下一代WWTPS准备用于水，能源和材料采矿。虽然生物能源仍在主导资源回收，但近年来恢复增值材料（即Struvite，Biog聚物，纤维素）的恢复。那么，最先进的能力资源恢复方法以及从市政废水中重新使用的方法是什么？本文遵循可用运营环境中验证技术的严重审查，进一步表明了WWTPS中回收材料的市场路线。考虑到新颖技术的开发和核查以及所获得的产品的储价，在本综述论文中聚集在循环经济的观点中。普通的普通障碍将简要介绍，以便在未来铺平往地区建立资源回收设施的点。

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来源
《Critical reviews in environmental science and technology》 |2020年第12期|共34页
作者
Akyol Cagri; Foglia Alessia; Ozbayram Emine Gozde; Frison Nicola; Katsou Evina; Eusebi Anna Laura; Fatone Francesco;
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作者单位

Bogazici Univ Inst Environm Sci Istanbul Turkey;

Marche Polytech Univ Dept Sci &

Engn Mat Environm &

Urban Planning SIM Fac Engn I-60121 Ancona Italy;

Istanbul Tech Univ Dept Environm Engn Istanbul Turkey;

Univ Verona Dept Biotechnol Verona Italy;

Brunel Univ London Dept Civil Engn &

Environm Engn Inst Environm Hlth &

Soc Uxbridge Campus Uxbridge Middx England;

Marche Polytech Univ Dept Sci &

Engn Mat Environm &

Urban Planning SIM Fac Engn I-60121 Ancona Italy;

Marche Polytech Univ Dept Sci &

Engn Mat Environm &

Urban Planning SIM Fac Engn I-60121 Ancona Italy;

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正文语种 eng
中图分类环境科学、安全科学;
关键词
Anaerobic treatment; biorefinery; energy recovery; material recovery; municipal wastewater; valorization;

机译：厌氧治疗;生物遗产;能量回收;物质恢复;市政废水;价值化;

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1. Validated innovative approaches for energy-efficient resource recovery and re-use from municipal wastewater: From anaerobic treatment systems to a biorefinery concept [J] . Akyol Cagri, Foglia Alessia, Ozbayram Emine Gozde, Critical reviews in environmental science and technology . 2020,第7a12期

机译：经过验证的节能资源回收和从城市废水再使用的创新方法：从厌氧治疗系统到生物遗料概念
2. An innovative anaerobic MBR-reverse osmosis-ion exchange process for energy-efficient reclamation of municipal wastewater to NEWater-like product water [J] . Gu Jun, Liu Hang, Wang Siyu, Journal of Cleaner Production . 2019,第Sepa1期

机译：一种创新的Anaerobic MBR反渗透离子交换过程，用于节能将城市废水开垦到新型产品水中
3. Evaluating new processes and concepts for energy and resource recovery from municipal wastewater with life cycle assessment [J] . Remy C., Boulestreau M., Warneke J., Water Science and Technology . 2016,第5期

机译：通过生命周期评估来评估市政废水中能量和资源回收的新流程和概念
4. ENHANCED BIOGAS PRODUCTION FROM ANAEROBIC CO-DIGESTION OF MUNICIPAL WASTEWATER TREATMENT SLUDGE AND FAT, OIL AN GREASE (FOG) BY A MODIFIED TWO-STAGE THERMOPHILIC DIGESTER SYSTEM WITH SELECTED THERMO-CHEMICAL PRE-TREATMENT [C] . C. LI, P. CHAMPAGNE, B.C. ANDERSON International Waste Management and Landfill Symposium . 2013

机译：从城市废水处理污泥和脂肪的厌氧共消化的增强沼气，通过精制的两级嗜热蒸煮器系统用精制的两级嗜热蒸煮器系统进行油脂（雾），具有选定的热化学预处理
5. Development of Innovative Wastewater Treatment Technologies for Acid Mine Drainage and Municipal Wastewater Management in Energy Producing Regions [D] . Deng, Dongyang. 2017

机译：高酸性地区酸性矿井排水和市政废水管理创新废水处理技术的开发
6. Integration of Green Energy and Advanced Energy-Efficient Technologies for Municipal Wastewater Treatment Plants [O] . Ziyang Guo, Yongjun Sun, Shu-Yuan Pan, 2019

机译：城市污水处理厂绿色能源与先进节能技术的集成
7. Approaches to energy and resource recovery from municipal wastewater [O] . 2020

机译：从市政废水中的能源和资源回收方法
8. Technology Assessment of Anaerobic Systems for Municipal Wastewater Treatment: 1. Anaerobic Fluidized Bed. 2. ANFLOW [R] . Heidman, J. A. 1982

机译：城市污水处理厌氧系统技术评价：1。厌氧流化床。 2. aNFLOW

Validated innovative approaches for energy-efficient resource recovery and re-use from municipal wastewater: From anaerobic treatment systems to a biorefinery concept

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