An analysis of waste gasification and its contribution to China's transition towards carbon neutrality and zero waste cities

Scheithauer, 2021, Assessment of feasible and effective technologies for the chemical utilization of domestic coal for value-added production in vietnam, 364 Vamvuka, 1999, Gasification of coal, Energy Exploration & Exploitation, 17, 515, 10.1177/014459879901700603 U. S. DEPARTMENT OF ENERGY, NATIONAL ENERGY TECHNOLOGY LABORATORY Global Syngas Technologies Council Lee, 2020, Sustainable waste management for zero waste cities in China: potential, challenges and opportunities, Clean Energy, 4, 169, 10.1093/ce/zkaa013 Ministry of Housing and Urban-Rural Development of The People's Republic of China Lee, 2017, A concept to support the transformation from a linear to circular carbon economy: net zero emissions, resource efficiency and conservation through a coupling of the energy, chemical and waste management sectors, Clean Energy, 1, 102, 10.1093/ce/zkx004 ZERO WASTE EUROPE Mcgrath Ye, 2019, Coordinated development of coal chemical and petrochemical industries in China, Bull Chin Acad Sci, 34, 417 Flanders National Bureau of Statistics Lin, 2016, Emissions reduction in China's chemical industry-based on LMDI, Renewable Sustainable Energy Rev, 53, 1348, 10.1016/j.rser.2015.09.045 Zhang, 2019, Intensive carbon dioxide emission of coal chemical industry in China, Appl Energy, 236, 540, 10.1016/j.apenergy.2018.12.022 Statista Johnson, 1988, Automotive emissions, 39 Ministry of Ecology and Environment of The People's Republic of China Liu, 2021, Driving forces of temporal-spatial differences in CO2 emissions at the city level for China's transport sector, Environ Sci Pollut Res Int, 28, 25993, 10.1007/s11356-020-12235-4 Dudley U. S. Department of Energy, National Energy Technology Laboratory Minchener, 2013 Gräbner, 2015 Higman, 2011 Materazzi, 2017 Abraham, 1999, Use of the precon process with integrated HTW-gasification for household refuse recycling in japan, Braunkohle, 51, 689 Adlhoch, 2000 Schmalfeld, 2008 Radtke K. ThyssenKrupp uhde's PRENFLO® and HTWTM gasification technologies: global update on technology and projects//Gasification Technologies Conference 2011. San Francisco, California, 2011-10-09. Higman C. State of the gasification industry: worldwide gasification and syngas databases: 2016 update//Gasification & Syngas Technologies Conference. Vancouver, 2016-10-19. Kamka F, Jochmann A. Ressourcen effizient erkunden, gewinnen, aufbereiten, nutzen und recyceln: Rohstoffliches Recycling von kohlenstoffhaltigen Abfällen//68. BHT - Freiberger Universitätsforum. Freiberg, 2017-06-09. Lee RP, Laugwitz A, Mehlhose F, Meyer B. Waste gasification: Key technology for closing the carbon cycle: coupling the energy, chemical and recycling sectors//9th International Freiberg Conference. Berlin, 2018-06-03. SandeR H J, Daradimus G, Hirschfelder H. Operating results of the BGL gasifier at Schwarze Pumpe//Gasification Technologies. San Francisco, 2003-10-12. Buttker, 2005 Obermeier, 2002, Forderungen an die Qualität von Einsatzmaterial für die Vergasung im SVZ Schwarze Pumpe, 1 Meyer B, Lee R P, Reinmöller M. Chemical recycling: A key building block in the transition towards zero-waste cities//taiyuan energy low carbon development forum. Taiyuan, 2019-10-23. Buttker, 2001, Methanol aus Klärschlamm: Das Konzept der SVZ Schwarze Pumpe GmbH[A], 667 Kunststoff Web Lee, 2017, Towards a closed carbon cycle and achieving a circular economy for carbonaceous resources - Net zero emissions, resource efficiency and resource conservation through coupling of the energy, chemical and recycling sectors, Erdöl, Erdgas, Kohle-Oil Gas European Magazine, 43, 76 European Commission European Commission Waldheim, 2018 Fujimura H, Hirayama Y, Fujinami S, Takano K, Irie M, Hirose T, NagatO S, Oshita T, Fukuda T. Method for treating wastes by gasification: US, US5900224A. 1999-05-04. Bailey JGC CORPORATION, EBARA ENVIRONMENTAL PLANT CO., LTD., UBE INDUSTRIES, LTD. Port of Rotterdam Chornet E, Valsecchi B, Drolet G, GagnoN M, Nguyen B. Production and conditioning of synthesis gas obtained from biomass: US, US20100051875A1. 2010-03-04. Lavoie, 2013, Non-homogeneous residual feedstocks to biofuels and chemicals via the methanol route, Biomass Conv Bioref, 3, 39, 10.1007/s13399-012-0050-6 Marie-Rose, 2011, 123 Demetra Foucault M, Crete J P, Drolet G, Foulet M, Denomme L, Valsecchi B. Production of synthesis gas from gasifying and reforming carbonaceous materials: WO, WO2020/206538. 2020-10-15. Vierhout R. Biofuels and chemicals from mixed waste: the ENERKEM contribution to sustainability and circular economy//9th Stakeholder Plenary Meeting - European Technology and Innovation Platform Bioenergy. Brussels, 2019-11-20. ThermoChem Recovery International, inc. advanced syngas production for fuels, chemicals and power//2nd EU-India Conference on Advanced Biofuels. New Delhi, 2019-03-11. Chandran Whitty Surma J. Conversion of municipal solid waste into clean energy products using the inentec plasma enhanced melter®//California Bioresources Alliance 7th Annual Symposium. Sacramento, California, 2012-09-11. Inentec I N C Corbett M J, JASBINZEK J, KASTEN C J. Tuyere for oxygen blast furnace/converter system: WO, WO2007130362A2. 2007-11-15. Claffin H B, JASBINZEK J. Blast furnace with narrowed top section and method of using: US, US6030430A. 2000-02-29. Sierra Energy Sierra Energy Lee, 2019, Synthesegas aus schwer verwertbaren Abfällen, Umweltmagazin, 9, 36 Thomas K, Eberhard M. Country report Germany: Task 33 Thermal gasification of biomass//onlineworkshop, 2020-11-19.