国内外城市垃圾焚烧飞灰熔融技术综述
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摘要
本文介绍了JFE的电阻式灰熔融技术、IHI的直流电阻灰熔融技术、日立造船的燃料式飞灰熔融技术和等离子灰熔融技术、大同特钢的火焰式灰熔融技术和电弧灰熔融技术、英国Tetronics等离子体直流电弧灰熔融技术等国外主要应用的城市垃圾焚烧飞灰熔融技术,列举了国内垃圾焚烧飞灰熔融技术的研究进展,同时介绍了恩菲垃圾焚烧飞灰熔融技术的优势。
Melting technology of fly ash from municipal solid waste incineration( MSWI) used widely abroad,such as melting technology of resistive ash in JFE, melting technology of direct current resistive ash in IHI, melting technology of fuel ash and melting technology of plasma ash in Hitz, melting technology of flame ash and melting technology of arc ash in Daido Steel, and melting technology of plasma direct current arc ash in Tetronics from the UK, were introduced in this paper. The research progress of melting technology of fly ash from MSWI was enumerated, and advantages of melting technology of fly ash from MSWI in ENFI were introduced.
Melting technology of fly ash from municipal solid waste incineration( MSWI) used widely abroad,such as melting technology of resistive ash in JFE, melting technology of direct current resistive ash in IHI, melting technology of fuel ash and melting technology of plasma ash in Hitz, melting technology of flame ash and melting technology of arc ash in Daido Steel, and melting technology of plasma direct current arc ash in Tetronics from the UK, were introduced in this paper. The research progress of melting technology of fly ash from MSWI was enumerated, and advantages of melting technology of fly ash from MSWI in ENFI were introduced.
引文
[1]陈莹莹.《国家危险废物名录》于8月1日起施行——飞灰处理欲破局[N].经济日报,2016-8-2(14).
[2] Eiichi Shibuya, Yoji Suguro, Tetsuo Akashi,et al. Vitrification for fly ash using electric-resistance furnace[J].NKK Technical Review, 2000(82):1-7.
[3]多田光宏,岩崎克博,平岡英伸,等.NKK電気抵抗式灰熔融炉の炉内解析[J]. NKK技報,2002(176):21-25.
[4] Keisuke Nakahara,Yoshinari Fujisawa,Tsuyoshi Nakao,et al. NKK electric-resistance furnace for residues from municipal solid waste incineration plants[J]. NKK Technical Review, 1998(78):31-38.
[5]水野昌幸,田中貴博,大塚裕之,等.焼却炉の熱性能解析[J].石川島播磨技報,2004(6):361-367.
[6]井上里志,水野昌幸,成澤道則,等.バ—ナ式溶融炉の開発[J].石川島播磨技報,2003(2):58-67.
[7]黑田幸生,大塚裕之,水野昌幸,等.焼却炉·溶融炉の熱解析技術[J].石川島播磨技報,2002(4):208-211.
[8]吉成直人,梅田十次郎,西野顺也,等.直流電気抵抗式灰溶融技術の商品化[J].石川島播磨技報,1998(2):83-88.
[9]#12
[10]黑田幸生,成澤道則,水野昌幸,等.ごみ燒却灰髙性能溶融炉技術の研究開発[J].石川島播磨技報,2000(3):110-113.
[11] Yoshitoshi Sekiguchi, Kunio Sasaki, Hideo Shimotani,et al. Smelting technology of municipal solid wastes ash[J]. Hitz技報,1992(2):38-44.
[2] Eiichi Shibuya, Yoji Suguro, Tetsuo Akashi,et al. Vitrification for fly ash using electric-resistance furnace[J].NKK Technical Review, 2000(82):1-7.
[3]多田光宏,岩崎克博,平岡英伸,等.NKK電気抵抗式灰熔融炉の炉内解析[J]. NKK技報,2002(176):21-25.
[4] Keisuke Nakahara,Yoshinari Fujisawa,Tsuyoshi Nakao,et al. NKK electric-resistance furnace for residues from municipal solid waste incineration plants[J]. NKK Technical Review, 1998(78):31-38.
[5]水野昌幸,田中貴博,大塚裕之,等.焼却炉の熱性能解析[J].石川島播磨技報,2004(6):361-367.
[6]井上里志,水野昌幸,成澤道則,等.バ—ナ式溶融炉の開発[J].石川島播磨技報,2003(2):58-67.
[7]黑田幸生,大塚裕之,水野昌幸,等.焼却炉·溶融炉の熱解析技術[J].石川島播磨技報,2002(4):208-211.
[8]吉成直人,梅田十次郎,西野顺也,等.直流電気抵抗式灰溶融技術の商品化[J].石川島播磨技報,1998(2):83-88.
[9]#12
[10]黑田幸生,成澤道則,水野昌幸,等.ごみ燒却灰髙性能溶融炉技術の研究開発[J].石川島播磨技報,2000(3):110-113.
[11] Yoshitoshi Sekiguchi, Kunio Sasaki, Hideo Shimotani,et al. Smelting technology of municipal solid wastes ash[J]. Hitz技報,1992(2):38-44.