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The rapid development of social economy leads the output of solid waste to increase rapidly. The traditional treatment methods, such as landfilling, incineration and composting, are not only inefficient, but also have many limitations, such as secondary pollution and waste of resources. Therefore, it is urgent to explore new solid waste treatment technology. Due to its high efficiency, environmental protection and high energy conversion, the plasma gasification technology has been applied to the harmless treatment of solid waste. This article introduces the background and significance of plasma gasification technology in solid waste treatment, and summarizes the application of plasma gasification technology to different solid waste treatments, the technical level and research progress of plasma gasification of solid waste in the world are described in detail, and the existing problems in the current application of plasma gasification of solid waste are emphatically analyzed. It is pointed out that plasma gasification technology is an effective way to treat solid waste.
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Keywords:
- solid waste /
- plasma gasification technology /
- commericial application
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[8] Zhang J J, Zhang S G, Liu B 2020 J. Cleaner Prod. 250 119507Google Scholar
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[10] Lim S L, Lee L H, Wu T Y 2016 J. Cleaner Prod. 111 262Google Scholar
[11] Yao P 2017 Arabian J. Chem. 10 S2567Google Scholar
[12] Kumar A, Samadder S R 2017 Waste Manage. 69 407Google Scholar
[13] Munir M T, Mardon I, Al-Zuhair S, Shawabkeh A, Saqib N U 2019 Renewable Sustainable Energy Rev. 116 109461Google Scholar
[14] Fang S W, Gu W L, Chen L, Yu Z S, Dai M Q, Lin Y, Liao Y F, Ma X Q 2018 Bioresour. Technol. 258 5Google Scholar
[15] Inglezakis V J, Amzebek A, Kuspangaliyeva B, Sarbassov Y, Balbayeva G, Yerkinova A, Poulopoulos S G 2018 Desalin. Water Treat. 112 218Google Scholar
[16] Jiang B, Zheng J T, Qiu S, Wu M B, Zhang Q H, Yan Z F, Xue Q Z 2014 Chem. Eng. J. 236 348Google Scholar
[17] Ghasali E, Alizadeh M, Niazmand M, Ebadzadeh T 2017 J. Alloys Compd. 697 200Google Scholar
[18] Shi B L, Dai Y F, Xie X H, Li S Y, Zhou L 2016 Plasma Chem. Plasma Process. 36 891Google Scholar
[19] Niu H Z, Chen Y F, Zhang D L, Zhang Y S, Lu J W, Zhang W, Zhang P X 2016 Mater. Des. 89 823Google Scholar
[20] Miller K K, Gottfried J L, Walck S D, Pantoya M L, Wu C C 2019 Combust. Flame 206 211Google Scholar
[21] Messerle V E, Mosse A L, Ustimenko A B 2018 Waste Manage. 79 791Google Scholar
[22] Yayalık I, Koyun A, Akgün M 2020 Plasma Chem. Plasma Process. 40 1401Google Scholar
[23] Pujara Y, Pathak P, Sharma A, Govani J 2019 J. Environ. Manage. 248 109238Google Scholar
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[35] Trnovcevic J, Schneider F, Scherer U W 2017 Radiat. Eff. Defects Solids 172 23Google Scholar
[36] Rajan R, Robin D T, Vandanarani M 2019 J. Ayurveda Integr. Med. 10 214Google Scholar
[37] Messerle V E, Mosse A L, Ustimenko A B 2016 IEEE Trans. Plasma Sci. 44 3017Google Scholar
[38] Pei S L, Chen T L, Pan S Y, Yang Y L, Sun Z H, Li Y J 2020 J. Hazard. Mater. 398 122959Google Scholar
[39] Ma W C, Fang Y H, Chen D M, Chen G Y, Xu Y X, Sheng H Z, Zhou Z H 2017 Fuel 210 145Google Scholar
[40] Zhao P, Ni G H, Jiang Y M, Chen L W, Chen M Z, Meng Y D 2010 J. Hazard. Mater. 181 580Google Scholar
[41] Seftejani M N, Schenk J 2018 Metals 8 1051Google Scholar
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[43] Yugeswaran S, Ananthapadmanabhan P V, Thiyagarajan T K, Ramachandran K 2015 Ceram. Int. 41 9585Google Scholar
[44] Peng G L, Deng S B, Liu F L, Qi C D, Tao L Y, Li T, Yu G 2020 J. Cleaner Prod. 262 121416Google Scholar
[45] Chen H X, Yuan H H, Mao L Q, Hashmi M Z, Xu F N, Tang X J 2020 Chemosphere 240 124885Google Scholar
[46] Orescanin V, Mikelic I L, Kollar R, Mikulic N, Medunic G 2012 Arh. Hig. Rada Toksikol. 63 337Google Scholar
[47] Vieira Cubas A L, Machado M D M, Machado M d M, Gross F, Magnago R F, Siegel Moecke E H, de Souza I G 2014 Environ. Sci. Technol. 48 2853Google Scholar
[48] Fabry F, Rehmet C, Rohani V, Fulcheri L 2013 Waste Biomass Valorization 4 421Google Scholar
[49] Sanito R C, You S J, Chang T J, Wang Y F 2020 J. Environ. Manage. 270 110910Google Scholar
[50] 杨德宇, 俞建荣 2014 新技术新工艺 2 106Google Scholar
Yang D Y, Yu J R 2014 New Technology & New Process 2 106Google Scholar
[51] Ramos A, Berzosa J, Espí J, Clarens F, Rouboa A 2020 Energy Convers. Manage. 209 112508Google Scholar
[52] 任一峰 2011 发电设备 25 370Google Scholar
Ren Y F 2011 Power Equipment 25 370Google Scholar
[53] Ruj B, Ghosh S 2014 Fuel Process. Technol. 126 298Google Scholar
[54] Choi K, Sheng J W, Lee M C, Song M J 2000 Waste Manage. 20 575Google Scholar
[55] Jeong J, Baik M H, Kang M J, Ahn H J, Hwang D S, Hong D S, Jeong Y H, Kim K 2016 Nucl. Eng. Technol. 48 1368Google Scholar
[56] Byun Y, Namkung W, Cho M, Chung J W, Kim Y S, Lee J H, Lee C R, Hwang S M 2010 Environ. Sci. Technol. 44 6680Google Scholar
[57] Materazzi M, Lettieri P, Mazzei L, Taylor R, Chapman C 2014 Fuel Process. Technol. 128 146Google Scholar
[58] Taylor R, Ray R, Chapman C 2013 Fuel 106 401Google Scholar
[59] Rani D A, Gomez E, Boccaccini A R, Hao L, Deegan D, Cheeseman C R 2008 Waste Manage. 28 1254Google Scholar
[60] Rutberg P G, Kuznetsov V A, Serba E O, Popov S D, Surov A V, Nakonechny G V, Nikonov A V 2013 Appl. Energy 108 505Google Scholar
[61] Surov A V, Popov S D, Popov V E, Subbotin D I, Serba E O, Spodobin V A, Nakonechny G V, Pavlov A V 2017 Fuel 203 1007Google Scholar
[62] Rutberg P G, Bratsev A N, Kuznetsov V A, Popov V E, Ufimtsev A A, Shtengel S V 2011 Biomass Bioenergy 35 495Google Scholar
[63] Fulcheri L, Fabry F, Takali S, Rohani V 2015 Plasma Chem. Plasma Process. 35 565Google Scholar
[64] Zhang Q L, Dor L R, Fenigshtein D, Yang W H, Blasiak W 2012 Appl. Energy 90 106Google Scholar
[65] Zhang Q L, Dor L R, Zhang L, Yang W H, Blasiak W 2012 Appl. Energy 98 219Google Scholar
[66] Zhang Q L, Wu Y S, Dor L R, Yang W H, Blasiak W 2013 Appl. Energy 112 405Google Scholar
[67] 王希, 张春飞, 王晓亮, 胡蕴成 2012 现代化工 32 20Google Scholar
Wang X, Zhang C F, Wang X L, Hu Y C 2012 Modern Chemical Industry 32 20Google Scholar
[68] Fourcault A, Marias F, Michon U 2010 Biomass Bioenergy 34 1363Google Scholar
[69] Jayasankar K, Ray P K, Chaubey A K, Padhi A, Satapathy B K, Mukherjee P S 2012 Int. J. Miner. Metall. Mater. 19 679Google Scholar
[70] Tang B S, Lin J, Qian S, Wang J D, Zhang S 2014 Mater. Lett. 128 68Google Scholar
[71] Zhou H, Meng A H, Long Y Q, Li Q H, Zhang Y G 2014 Renewable Sustainable Energy Rev. 36 107Google Scholar
[72] Zhao X G, Jiang G W, Li A, Wang L 2016 Waste Manage. 48 604Google Scholar
[73] Chu J P, Hwang I, Tzeng C C, Kuo Y Y, Yu Y J 1998 J. Hazard. Mater. 58 179Google Scholar
[74] Yang S F, Chiu W T, Wang T M, Chen C T, Tzeng C C 2014 Waste Manage. 34 1079Google Scholar
[75] 黄付平, 黄智宁, 谢启军, 谢建跃, 何少媚, 覃岳隆, 覃霞 2019 环境工程 37 199Google Scholar
Huang F P, Huang Z N, Xie Q J, Xie J Y, He S M, Tan Y L, Tan X 2019 Environmental Engineering 37 199Google Scholar
[76] Tang L, Huang H 2004 J. Anal. Appl. Pyrolysis 72 35Google Scholar
[77] Zhao Z L, Huang H T, Wu C Z, Li H B, Chen Y 2001 Eng. Life Sci. 1 197Google Scholar
[78] Huang H, Tang L, Wu C Z 2003 Environ. Sci. Technol. 37 4463Google Scholar
[79] 程昌明, 童洪辉, 兰伟, 张劲松, 耿少飞, 朱海龙 2013 高电压技术 39 1584Google Scholar
Cheng M C, Tong H H, Lan W, Zhang J S, Geng S F, Zhu H L 2013 High Voltage Engineering 39 1584Google Scholar
[80] Yan B H, Cheng Y, Li T Y, Cheng Y 2017 Energy 121 10Google Scholar
[81] Ma S, Zhao Y C, Yang J, Zhang S B, Zhang J Y, Zheng C G 2017 Renewable Sustainable Energy Rev. 67 791Google Scholar
[82] 杜长明, 蔡晓伟, 余振棠, 宋春莲, 俞哲 2019 高压电技术 45 2999Google Scholar
Du C M, Cai X W, Yu Z T, Song C L, Yu Z 2019 High Voltage Engineering 45 2999Google Scholar
[83] Danthurebandara M, Van Passel S, Vanderreydt I, Van Acker K 2015 Waste Manage. 45 458Google Scholar
[84] Li J, Liu K, Yan S J, Li Y J, Han D 2016 Waste Manage. 58 260Google Scholar
[85] Favas J, Monteiro E, Rouboa A 2017 Int. J. Hydrogen Energy 42 10997Google Scholar
[86] Perna A, Minutillo M, Lavadera A L, Jannelli E 2018 Waste Manage. 73 424Google Scholar
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[1] Laurent A, Bakas I, Clavreul J, Bernstad A, Niero M, Gentil E, Hauschild M Z, Christensen T H 2014 Waste Manage. 34 573Google Scholar
[2] Liu Y J, Liu Y T, Li H, Fu X D, Guo H W, Meng R H, Lu W J, Zhao M, Wang H T 2016 Environ. Int. 97 15Google Scholar
[3] Sultan M, Waheed S, Ali U, Sweetman A J, Jones K C, Malik R N 2019 Ecotoxicol. Environ. Saf. 170 195Google Scholar
[4] Gallo F, Fossi C, Weber R, Santillo D, Sousa J, Ingram I, Nadal A, Romano D 2018 Environ. Sci. Eur. 30 13Google Scholar
[5] Funari V, Mäkinen J, Salminen J, Braga R, Dinelli E, Revitzer H 2017 Waste Manage. 60 397Google Scholar
[6] Sauve G, Van Acker K 2020 J. Environ. Manage. 261 110216Google Scholar
[7] Lin Z Z, Wang Z, Hu Y F, Liu Y L, Xu J 2017 Environ. Eng. Sci. 34 607Google Scholar
[8] Zhang J J, Zhang S G, Liu B 2020 J. Cleaner Prod. 250 119507Google Scholar
[9] Chaturvedi S, Yadav B P, Siddiqui N A, Chaturvedi S K 2020 J. Oceanic Eng. Sci. 5 136Google Scholar
[10] Lim S L, Lee L H, Wu T Y 2016 J. Cleaner Prod. 111 262Google Scholar
[11] Yao P 2017 Arabian J. Chem. 10 S2567Google Scholar
[12] Kumar A, Samadder S R 2017 Waste Manage. 69 407Google Scholar
[13] Munir M T, Mardon I, Al-Zuhair S, Shawabkeh A, Saqib N U 2019 Renewable Sustainable Energy Rev. 116 109461Google Scholar
[14] Fang S W, Gu W L, Chen L, Yu Z S, Dai M Q, Lin Y, Liao Y F, Ma X Q 2018 Bioresour. Technol. 258 5Google Scholar
[15] Inglezakis V J, Amzebek A, Kuspangaliyeva B, Sarbassov Y, Balbayeva G, Yerkinova A, Poulopoulos S G 2018 Desalin. Water Treat. 112 218Google Scholar
[16] Jiang B, Zheng J T, Qiu S, Wu M B, Zhang Q H, Yan Z F, Xue Q Z 2014 Chem. Eng. J. 236 348Google Scholar
[17] Ghasali E, Alizadeh M, Niazmand M, Ebadzadeh T 2017 J. Alloys Compd. 697 200Google Scholar
[18] Shi B L, Dai Y F, Xie X H, Li S Y, Zhou L 2016 Plasma Chem. Plasma Process. 36 891Google Scholar
[19] Niu H Z, Chen Y F, Zhang D L, Zhang Y S, Lu J W, Zhang W, Zhang P X 2016 Mater. Des. 89 823Google Scholar
[20] Miller K K, Gottfried J L, Walck S D, Pantoya M L, Wu C C 2019 Combust. Flame 206 211Google Scholar
[21] Messerle V E, Mosse A L, Ustimenko A B 2018 Waste Manage. 79 791Google Scholar
[22] Yayalık I, Koyun A, Akgün M 2020 Plasma Chem. Plasma Process. 40 1401Google Scholar
[23] Pujara Y, Pathak P, Sharma A, Govani J 2019 J. Environ. Manage. 248 109238Google Scholar
[24] Meena M D, Yadav R K, Narjary B, Yadav G, Jat H S, Sheoran P, Meena M K, Antil R S, Meena B L, Singh H V, Meena V S, Rai P K, Ghosh A, Moharana P C 2019 Waste Manage. 84 38Google Scholar
[25] Chen Y C 2018 Waste Manage. 79 828Google Scholar
[26] Peterson R A, Buck E C, Chun J, Daniel R C, Herting D L, Ilton E S, Lumetta G J, Clark S B 2018 Environ. Sci. Technol. 52 381Google Scholar
[27] Ghasemi L, Yousefzadeh S, Rastkari N, Naddafi K, Far N S, Nabizadeh R 2018 J. Environ. Health Sci. Eng. 16 171Google Scholar
[28] Ahmed M J K, Ahmaruzzaman M 2016 J. Water Process Eng. 10 39Google Scholar
[29] Gundupalli S P, Hait S, Thakur A 2017 Waste Manage. 60 56Google Scholar
[30] Agon N, Hrabovský M, Chumak O, Hlína M, Kopecký V, Masláni A, Bosmans A, Helsen L, Skoblja S, Van Oost G, Vierendeels J 2016 Waste Manage. 47 246Google Scholar
[31] Hrabovsky M, Kopeckykopecky V, Sember V, Kavka T, Chumak O, Konrad M 2006 IEEE Trans. Plasma Sci. 34 1566Google Scholar
[32] Materazzi M, Lettieri P, Mazzei L, Taylor R, Chapman C 2015 Fuel Process. Technol. 137 259Google Scholar
[33] Shie J, Chen L X, Lin K L, Chang C Y 2014 Energy 66 82Google Scholar
[34] Prado E S P, Miranda F S, Petraconi G, Potiens Jr A J 2020 Radiat. Phys. Chem. 168 108625Google Scholar
[35] Trnovcevic J, Schneider F, Scherer U W 2017 Radiat. Eff. Defects Solids 172 23Google Scholar
[36] Rajan R, Robin D T, Vandanarani M 2019 J. Ayurveda Integr. Med. 10 214Google Scholar
[37] Messerle V E, Mosse A L, Ustimenko A B 2016 IEEE Trans. Plasma Sci. 44 3017Google Scholar
[38] Pei S L, Chen T L, Pan S Y, Yang Y L, Sun Z H, Li Y J 2020 J. Hazard. Mater. 398 122959Google Scholar
[39] Ma W C, Fang Y H, Chen D M, Chen G Y, Xu Y X, Sheng H Z, Zhou Z H 2017 Fuel 210 145Google Scholar
[40] Zhao P, Ni G H, Jiang Y M, Chen L W, Chen M Z, Meng Y D 2010 J. Hazard. Mater. 181 580Google Scholar
[41] Seftejani M N, Schenk J 2018 Metals 8 1051Google Scholar
[42] Yugeswaran S, Ananthapadmanabhan P V, Lusvarghi L 2015 Ceram. Int. 41 265Google Scholar
[43] Yugeswaran S, Ananthapadmanabhan P V, Thiyagarajan T K, Ramachandran K 2015 Ceram. Int. 41 9585Google Scholar
[44] Peng G L, Deng S B, Liu F L, Qi C D, Tao L Y, Li T, Yu G 2020 J. Cleaner Prod. 262 121416Google Scholar
[45] Chen H X, Yuan H H, Mao L Q, Hashmi M Z, Xu F N, Tang X J 2020 Chemosphere 240 124885Google Scholar
[46] Orescanin V, Mikelic I L, Kollar R, Mikulic N, Medunic G 2012 Arh. Hig. Rada Toksikol. 63 337Google Scholar
[47] Vieira Cubas A L, Machado M D M, Machado M d M, Gross F, Magnago R F, Siegel Moecke E H, de Souza I G 2014 Environ. Sci. Technol. 48 2853Google Scholar
[48] Fabry F, Rehmet C, Rohani V, Fulcheri L 2013 Waste Biomass Valorization 4 421Google Scholar
[49] Sanito R C, You S J, Chang T J, Wang Y F 2020 J. Environ. Manage. 270 110910Google Scholar
[50] 杨德宇, 俞建荣 2014 新技术新工艺 2 106Google Scholar
Yang D Y, Yu J R 2014 New Technology & New Process 2 106Google Scholar
[51] Ramos A, Berzosa J, Espí J, Clarens F, Rouboa A 2020 Energy Convers. Manage. 209 112508Google Scholar
[52] 任一峰 2011 发电设备 25 370Google Scholar
Ren Y F 2011 Power Equipment 25 370Google Scholar
[53] Ruj B, Ghosh S 2014 Fuel Process. Technol. 126 298Google Scholar
[54] Choi K, Sheng J W, Lee M C, Song M J 2000 Waste Manage. 20 575Google Scholar
[55] Jeong J, Baik M H, Kang M J, Ahn H J, Hwang D S, Hong D S, Jeong Y H, Kim K 2016 Nucl. Eng. Technol. 48 1368Google Scholar
[56] Byun Y, Namkung W, Cho M, Chung J W, Kim Y S, Lee J H, Lee C R, Hwang S M 2010 Environ. Sci. Technol. 44 6680Google Scholar
[57] Materazzi M, Lettieri P, Mazzei L, Taylor R, Chapman C 2014 Fuel Process. Technol. 128 146Google Scholar
[58] Taylor R, Ray R, Chapman C 2013 Fuel 106 401Google Scholar
[59] Rani D A, Gomez E, Boccaccini A R, Hao L, Deegan D, Cheeseman C R 2008 Waste Manage. 28 1254Google Scholar
[60] Rutberg P G, Kuznetsov V A, Serba E O, Popov S D, Surov A V, Nakonechny G V, Nikonov A V 2013 Appl. Energy 108 505Google Scholar
[61] Surov A V, Popov S D, Popov V E, Subbotin D I, Serba E O, Spodobin V A, Nakonechny G V, Pavlov A V 2017 Fuel 203 1007Google Scholar
[62] Rutberg P G, Bratsev A N, Kuznetsov V A, Popov V E, Ufimtsev A A, Shtengel S V 2011 Biomass Bioenergy 35 495Google Scholar
[63] Fulcheri L, Fabry F, Takali S, Rohani V 2015 Plasma Chem. Plasma Process. 35 565Google Scholar
[64] Zhang Q L, Dor L R, Fenigshtein D, Yang W H, Blasiak W 2012 Appl. Energy 90 106Google Scholar
[65] Zhang Q L, Dor L R, Zhang L, Yang W H, Blasiak W 2012 Appl. Energy 98 219Google Scholar
[66] Zhang Q L, Wu Y S, Dor L R, Yang W H, Blasiak W 2013 Appl. Energy 112 405Google Scholar
[67] 王希, 张春飞, 王晓亮, 胡蕴成 2012 现代化工 32 20Google Scholar
Wang X, Zhang C F, Wang X L, Hu Y C 2012 Modern Chemical Industry 32 20Google Scholar
[68] Fourcault A, Marias F, Michon U 2010 Biomass Bioenergy 34 1363Google Scholar
[69] Jayasankar K, Ray P K, Chaubey A K, Padhi A, Satapathy B K, Mukherjee P S 2012 Int. J. Miner. Metall. Mater. 19 679Google Scholar
[70] Tang B S, Lin J, Qian S, Wang J D, Zhang S 2014 Mater. Lett. 128 68Google Scholar
[71] Zhou H, Meng A H, Long Y Q, Li Q H, Zhang Y G 2014 Renewable Sustainable Energy Rev. 36 107Google Scholar
[72] Zhao X G, Jiang G W, Li A, Wang L 2016 Waste Manage. 48 604Google Scholar
[73] Chu J P, Hwang I, Tzeng C C, Kuo Y Y, Yu Y J 1998 J. Hazard. Mater. 58 179Google Scholar
[74] Yang S F, Chiu W T, Wang T M, Chen C T, Tzeng C C 2014 Waste Manage. 34 1079Google Scholar
[75] 黄付平, 黄智宁, 谢启军, 谢建跃, 何少媚, 覃岳隆, 覃霞 2019 环境工程 37 199Google Scholar
Huang F P, Huang Z N, Xie Q J, Xie J Y, He S M, Tan Y L, Tan X 2019 Environmental Engineering 37 199Google Scholar
[76] Tang L, Huang H 2004 J. Anal. Appl. Pyrolysis 72 35Google Scholar
[77] Zhao Z L, Huang H T, Wu C Z, Li H B, Chen Y 2001 Eng. Life Sci. 1 197Google Scholar
[78] Huang H, Tang L, Wu C Z 2003 Environ. Sci. Technol. 37 4463Google Scholar
[79] 程昌明, 童洪辉, 兰伟, 张劲松, 耿少飞, 朱海龙 2013 高电压技术 39 1584Google Scholar
Cheng M C, Tong H H, Lan W, Zhang J S, Geng S F, Zhu H L 2013 High Voltage Engineering 39 1584Google Scholar
[80] Yan B H, Cheng Y, Li T Y, Cheng Y 2017 Energy 121 10Google Scholar
[81] Ma S, Zhao Y C, Yang J, Zhang S B, Zhang J Y, Zheng C G 2017 Renewable Sustainable Energy Rev. 67 791Google Scholar
[82] 杜长明, 蔡晓伟, 余振棠, 宋春莲, 俞哲 2019 高压电技术 45 2999Google Scholar
Du C M, Cai X W, Yu Z T, Song C L, Yu Z 2019 High Voltage Engineering 45 2999Google Scholar
[83] Danthurebandara M, Van Passel S, Vanderreydt I, Van Acker K 2015 Waste Manage. 45 458Google Scholar
[84] Li J, Liu K, Yan S J, Li Y J, Han D 2016 Waste Manage. 58 260Google Scholar
[85] Favas J, Monteiro E, Rouboa A 2017 Int. J. Hydrogen Energy 42 10997Google Scholar
[86] Perna A, Minutillo M, Lavadera A L, Jannelli E 2018 Waste Manage. 73 424Google Scholar
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