Benefits of infrastructure symbiosis between coal power and wastewater treatment

0
  • Ferrer, ALC, Thomé, AMT & Scaverda, AJ Sustainable urban infrastructure: an assessment. Resour. Conserv. Recycl. 128360–372 (2018).

    Google Scholar article

  • Chertow, M. & Ehrenfeld, J. Organizing self-organized systems: towards a theory of industrial symbiosis. J.Ind. School. 1613–27 (2012).

    Google Scholar article

  • Lu, Y., Chen, B., Feng, K. & Hubacek, K. Ecological network analysis for carbon metabolism of eco-industrial parks: a case study of a typical eco-industrial park in Beijing. About. Science. Technology. 497254–7264 (2015).

    CAS Google Scholar Article

  • Xu, M. et al. Gigaton problems require gigatonne solutions. About. Science. Technology. 444037–4041 (2010).

    CAS Google Scholar Article

  • Pandit, A. et al. Infrastructure Ecology: An Evolving Paradigm for Sustainable Urban Development. J. Cleaner Prod. 163S19–S27 (2017).

    Google Scholar article

  • Guo, Y., Tian, ​​J., Chertow, M., and Chen, L. Exploring greenhouse gas mitigation strategies in China’s eco-industrial parks by targeting energy infrastructure stocks. J.Ind. School. 22106-120 (2018).

    Google Scholar article

  • Unruh, GC Understanding carbon blocking. Energy policy 28817–830 (2000).

    Google Scholar article

  • Muller, DB et al. Carbon emissions from infrastructure development. About. Science. Technology. 4711739–11746 (2013).

    Google Scholar article

  • Jiang, Y. Water scarcity in China. J. About. Manage. 903185–3196 (2009).

    Google Scholar article

  • Holland, RA et al. Global impacts of energy demand on nations’ freshwater resources. proc. Natl Acad. Science. UNITED STATES 112E6707–E6716 (2015).

    CAS Google Scholar Article

  • Wang, X., Wang, X., Huppes, G., Heijungs, R. & Ren, N. Environmental implications of increasingly stringent wastewater discharge standards at municipal treatment plants: a case study of a cold region of China. J. Clean. production 94278-283 (2015).

    Google Scholar article

  • Wei, L. et al. Development, Current Status and Future Trends of Sludge Management in China: Based on Exploratory Data and CO2 analysis of equivalent emissions. About. Int. 144106093 (2020).

    CAS Google Scholar Article

  • Chinese Statistical Yearbook of Urban and Rural Development (Ministry of Housing and Urban-Rural Development of China, 2020). https://www.mohurd.gov.cn/gongkai/fdzdgknr/sjfb/tjxx/jstjnj/index.html

  • Tong, D. et al. Current emissions and future mitigation pathways from coal-fired power plants in China from 2010 to 2030. About. Science. Technology. 5212905–12914 (2018).

    CAS Google Scholar Article

  • Zhang, C., Zhong, L. & Wang, J. Decoupling between water use and thermoelectric power generation growth in China. Nat. Energy 3792–799 (2018).

    Google Scholar article

  • World Energy Outlook 2019 (International Energy Agency, 2019); https://www.iea.org/reports/world-energy-outlook-2019

  • Xu, M., Weissburg, M., Newell, JP & Crittenden, JC Developing a science of infrastructure ecology for sustainable urban systems. About. Science. Technology. 467928–7929 (2012).

    CAS Google Scholar Article

  • Hu, W., Guo, Y., Tian, ​​J. & Chen, L. Energy and water saving potentials in industrial parks through an infrastructure-integrated symbiotic model. Resour. Conserv. Recycl. 161104992 (2020).

    Google Scholar article

  • Xi calls for building trust and jointly addressing global challenges at the UNGA. Xinhua (September 21, 2021); http://english.www.gov.cn/news/topnews/202109/22/content_WS614a816dc6d0df57f98e0a56.html

  • Guidelines to facilitate wastewater reuse (China National Development and Reform Commission, Ministry of Science and Technology of China, Ministry of Industry and Information Technology of China et al. 2021); https://www.ndrc.gov.cn/xwdt/tzgg/202101/t20210111_1264795_ext.html

  • Plans to facilitate the co-combustion of coal and biomass (China National Energy Administration, Chinese Ministry of Environmental Protection, 2017); http://zfxxgk.nea.gov.cn/auto84/201712/t20171204_3065.htm

  • Announcement of pilot projects for the co-combustion of coal and biomass (China National Energy Administration, Ministry of Ecology and Environment of China, 2018). http://drc.gd.gov.cn/gkmlpt/content/1/1060/post_1060827.html#830

  • Guo, S., Huang, H., Dong, X. & Zeng, S. Calculation of greenhouse gas emissions from municipal wastewater treatment and its temporal and spatial trend in China. Water Wastewater Eng. 4556–62 (2019).

    CAS Google Scholar

  • Zhang, C. et al. Field test and numerical simulation for the co-combustion of sludge in a 100 MW coal-fired boiler. J. Combust. Science. Technology. 21114–123 (2015).

    Google Scholar

  • Guo, Y., Tian, ​​J., Chertow, M., and Chen, L. Greenhouse Gas Mitigation in China’s Eco-Industrial Parks by Targeting Energy Infrastructure: A Vintage Stock Model. About. Science. Technology. 5011403–11413 (2016).

    CAS Google Scholar Article

  • Nordhaus, W. Estimates of the social cost of carbon: concepts and results from the DICE-2013R model and alternative approaches. J. Assoc. About. Resour. Econ. 1273–312 (2014).

    Google Scholar

  • Luo, T. & Hu, J. Techno-economic analysis of reclaimed water pipe materials. Shanxi architect. 40132–133 (2014).

    Google Scholar

  • Code for the design of thermal power plants (GB50660-2011) (Ministry of Housing and Urban-Rural Development of China, 2011).

  • Cui, RY et al. A plant-by-plant strategy for phasing out coal power in China. Nat. Common. 121468 (2021).

    CAS Google Scholar Article

  • Standards for the Construction of Municipal Wastewater Treatment Projects (Ministry of Housing and Urban-Rural Development of China, 2001).

  • Wang, P. Incineration and Disposal of Dewatered Sludge from Municipal Wastewater Treatment Plants. Science. Technology. Vision 11227-228 (2020).

    CAS Google Scholar

  • Li, D et al. Study and application of sewage sludge co-combustion in a 300 MW coal-fired boiler. Zhejiang Electr. Power 38109–114 (2019).

    CAS Google Scholar

  • Liu, Y., Teng, J., Su, Y., Kang, J., and Zhang, Y. Research on pollutants emitted from the combustion of dried sludge mixture in a coal powder boiler. Chin. J. About. Eng. 84969–4976 (2014).

    CAS Google Scholar

  • Hao, X., Chen, Q., Li, J. & Jiang, H. Unnecessary concern about pollutants in off-gases from sludge incineration. China Water Wastewater 358–14 (2019).

    Google Scholar

  • 2016 Electricity Industry Development Statistical Data (China Electricity Board, 2017); http://www.chinayearbook.com/yearbook/item/1/197766.html

  • Basic information tables for 600 MW level thermal power generation units (China Electricity Board, 2012); http://www.chinapower.com.cn/kjfwduibiao/20160422/4817.html

  • Basic information tables for 100–225 MW and 300 MW level thermal power generating units (China Electricity Board, 2013); http://www.chinapower.com.cn/kjfwduibiao/20160422/4824.html

  • Lists of desulphurization and denitrification installations of coal-fired electricity generating units (Chinese Ministry of Environmental Protection, 2014); https://www.mee.gov.cn/gkml/hbb/bgg/201407/t20140711_278584.htm

  • China Power Generating Units Handbook (China Electricity Board, 2013).

  • Catalog of municipal wastewater treatment plants in 2014 (Ministry of Environmental Protection of China, 2015); https://www.mee.gov.cn/gkml/hbb/bgg/201506/t20150609_303209.htm

  • Handbook of Industrial Pollution Source Coefficients (Ministry of Environmental Protection of China, 2010).

  • Manual of Pollutant Emission Accounting Methods and Emission Factors (Ministry of Ecology and Environment of China, 2021); https://www.mee.gov.cn/xxgk2018/xxgk/xxgk01/202106/t20210618_839512.html

  • Liu, F. et al. High-resolution inventory of coal-fired power plant technologies, operations and emissions in China from 1990 to 2010. atmosphere. Chem. Phys. 1513299–13317 (2015).

    CAS Google Scholar Article

  • Zhang, C., Zhong, L., Fu, X., Wang, J. & Wu, Z. Revealing water stress by the thermal power industry in China based on an inventory of sampling and water consumption at high spatial resolution. About. Science. Technology. 501642–1652 (2016).

    CAS Google Scholar Article

  • IPCC Climate change 2013: the basis of the physical sciences (eds Stocker, TF et al.) (Cambridge Univ. Press, 2013).

  • Baidu Map open application programming interface (Baidu, 2022); https://lbsyun.baidu.com/

  • Code for urban water supply engineering planning (GB50282-2016) (Ministry of Housing and Urban-Rural Development of China, 2016).

  • Water Resources Taxation Reform Pilot Project (Ministry of Finance of China, State Revenue Administration of China, Ministry of Water Resources of China, 2016); http://www.chinatax.gov.cn/n810341/n810755/c2132428/content.html

  • Rebitzer, G. et al. Life cycle analysis, part 1: framework, definition of objectives and scope, inventory analysis and applications. About. Int. 30701–720 (2004).

    CAS Google Scholar Article

  • ISO 14040:2006 Environmental management – Life cycle assessment – Principles and framework (International Organization for Standardization, 2006); https://www.iso.org/obp/ui#iso:std:iso:14040:ed-2:v1:en

  • Share.

    Comments are closed.