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更新时间:2022.12.22
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黄立维| 博士 教授 请选择 |
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单位: 职务: 研究方向: 办公地址: 莫干山校区环境楼B-506 朝晖校区子良楼C-211 办公电话: 13819194231 电子邮箱: hlw@zjut.edu.cn |
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1986年7月毕业于浙江大学热物理低温工程专业,1991年1月获得浙江大学电厂热能动力工程专业硕士学位,1997年4月获得浙江大学化学工程专业博士学位。
1997年6月-1998年9月浙江工业大学讲师,1998年10月-2001年3月日本名古屋大学博士后,2001年4月-2006年8月浙江工业大学副教授。2005年10月-2006年9月日本名古屋大学访问学者,2006年9月-今:浙江工业大学教授。
主要从事大气污染控制、能源和资源有效利用技术的科研和相关教学工作。
在国际上首次提出了非平衡等离子体结合现场气体吸收的方法,来引导和促进有害物的降解,为该技术的工业化应用提供了一条可行的实现途径。首次发现了铁盐与一氧化氮在一定条件下的化学反应过程,并在此基础上开发了烟气氮氧化物治理及资源化回收的全新工艺,技术国际首创。发表科研论文100余篇,其中被SCI收录20篇。申请专利100余项,其中获授权国家发明专利25项,获授权美日欧韩等国家国际发明专利36项。
1、《大气污染控制工程》(双语),授课对象:环境工程专业本科生(大四),开课学期:春季;
2、《高等环境工程》(大气部分),授课对象:环境工程专业硕士研究生,开课学期:秋季;
3、《绿色能源利用技术》,授课对象:环境工程专业硕士研究生,开课学期:秋季。
发表论文:
一、外文杂志
Li-Wei Huang, Pan-Li Qiu, Jin -Yuan Chen, An-Ge Chen & Ying-Xin Liu. Removal of styrene in air stream by absorption combined with electrochemical oxidation,Environ. Technol.2020,41(16): 2140-2145.
Jinyuan Chen, Ange Chen, Panli Qiu, Liwei Huang, Qinghua Zhou.Removal of carbon disulfide from air stream by absorption combined withelectrochemical oxidation, J. Environ. Chem. Eng., 2019, 7(3):1-5
飯島伸介,内田遼,久保隆之,窪田光宏,松田仁樹,後夷光一,黄立維. 非平衡プラズマ反応器内でのジクロロメタンの分解・無機化特性に及ぼす充填誘電体粒子の影響,廃棄物資源循環学会論文誌,2015, 26(1):16-24.
Iijima, S; Nakamura, M; Yokoi, A ; Kubota, M; Huang LW; Matsuda, H Decomposition of dichloromethane and in situ alkali absorption of resulting halogenated products by a packed-bed non-thermal plasma reactor,J. Mater. Cycles Waste Manage,2011, 13(3):206-212.
LW Huang, YX Dang, Removal of SO2 and NOx by Pulsed Corona Combined with in situ Ca(OH)2 Absorption, CJChE, 2011, 19(3):518-522.
A.Yokoi, T. Fujita, D. Kuchar, M. Kubota, LW Hang, K. Ushiroebisu and H. Matsuda. Comparison of non-thermal decomposition characteristics of organo-halide gases under oxidizing and reducing atmosphere, Global NEST Journal, 2008, 10(2):249-254
T.Fukuta, S.Agari, D.Kuchar, M.Kubota, M.S. Onyango, H.Matsuda, L.Huang. Wet Oxidation Characteristics of Metal Cyanide Complexes Below 423K, Global NEST Journal, 2008, 10(1):24-30
T. Fujita, T. Kawano, LW Huang, Y. Kojima, H. Matsuda, K. Ushiroebisu; Influence of H2 on non-thermal plasma decomposition of halides incorporated with in situ alkaline absorption,J. Mater. Cycles Waste Manage, 2007, 9(1):15-20.
LW Huang, T. Fujita, XM. Zhang, H. Matsuda; Influences of H2 and O2 and In Situ Ca(OH)2 Absorption on Nonthermal Plasma Decomposition of Trichloroethylene in N2, Chem.
LW Huang, H. Matsuda; Removal of NO by a Pulsed Corona Reactor Combined with In Situ Absorption,J.AIChE,2004,50(11):2676-2681.
T. Fujita, T. Hari, Y. Kojima, H. Matsuda, LW Huang; Influence of O2 Concentration on Non-thermal Plasma Decomposition of Halide Gases Containing Cl and F, J. Chem. Eng. Jpn.(日文版), 2005, 31(3): 226-2306.
T. Hari, K. Nakajyo, LW Huang, S. Ozawa, and H. Matsuda; Influence of the Coexistence Gas and In-situ Absorbent on the Decomposition of Covalent Chlorides and Fluorides by Non-thermal Plasma, J.Chem.Eng. Jpn., (日文版), 2002, 28(5):522-527.
LW Huang, K.Nakajo, S.Ozawa, and H. Matsuda; Decomposition of Dichloromethane in a Wire-in-Tube Pulsed
LW Huang, K.Nakajo, T. Hari, S.Ozawa, and H. Matsuda; Decomposition of Carbon Tetrachloride by a Pulsed Corona Reactor Incorporated with In Situ Absorption,Ind. Eng. Chem.Res.,2001, 40(23): 5481-5486.
LW Huang, T. Hari, K. Nakajyo, S. Ozawa, and H. Matsuda; Reduction of NO by CO in a Pulsed Corona Reactor Incorporated with CuO Catalyst, J. Chem. Eng. Jpn., 2001, 35(6):1012-1016.
S.Ozawa, LW Huang, H. Matsuda and M. Hasatani;Dry Gas Cleaning of Coexisting SOx and NOx by Manganese Ore,Energy Convers Manage,2001,42(10):1987-1995.
平林大介, 黄立維,松田仁樹, 棚橋尚貴;石炭灰に含まれる石灰分の塩化水素反応特性,J. Chem.
S. Ozawa, Y. Morita, LW Huang, H. Matsuda, M. Hasatani; Oxidation of Coal Char/CaS Mixture at High Temperature, Energy Fuels, 2001, 14(1): 138-141.
D. Hirabayashi, Y. Saito, LW Huang, H. Matsuda, N. Tanahashi; Regeneration of Coal Ash as a high Capacity Acid Gas Sorbent, Transaction of materials Research Society of Japan, 2000, 25(2): 577-580
S. Ozawa, LW Huang, H. matsuda, M. Hasatani; Simultaneous Reduction of SOx and NOx in Manganese Oxides particle Beds, Transaction of materials Research Society of
二、中文杂志论文
裘盼黎 陈安格 黄立维 陈金媛 徐昕,溶液吸收结合电化学氧化降解四氢呋喃废气,高校化工学报,2020.8,34(4):1085-1090
徐晓华 许青枝 黄桂凤 王莉莉 黄立维;RuO2/Ti 阳极电化学氧化吸收氨废气,化工学报,2016,67(6):2568-2573.
吕云飞,黄立维;脉冲电晕法耦合Ca(OH)2固体吸收处理四氯乙烯废气研究,环境科学学报,2016,36(1)301-305.
王文婷,黄立维;脉冲电晕放电降解水溶液中甲苯实验研究,环境科学学报,2014,34(12):19-24
黄桂凤,黄立维;溶液吸收结合铁碳微电解法降解模拟废气中的二氯甲烷,化工学报,2014,65(9)3659-3603
王莉莉, 黄立维, 黄桂凤,陈金媛; 溶液吸收结合铁碳微电解法处理三氯乙烯废气实验研究, 高校化学工程学报,2014,28(5):1166-1169
许青枝, 黄立维, 蒋廉颖;吸收液对电化学氧化吸收甲苯废气的影响, 高校化学工程学报,2014,28(2):438-442。ISSN1003-9015
李国平,徐立红,黄桂凤,吕云飞,黄立维;脉冲电晕结合催化剂降解二氯甲烷研究,浙江工业大学学报,2014,42(5):528-533
许杭俊,黄立维;利用城市垃圾焚烧飞灰制备生态水泥的研究,热力发电,2013, 42(2):(41—44+120).
黄立维,何联候,金圣;线-筒式电晕反应器去除二硫化碳废气研究,浙江工业大学学报,2013,41(2):161-164
金圣,黄立维,李国平;在氧化和还原氛围下脉冲电晕法降解二硫化碳废气,环境科学, 2013,34(6):2121-2125 .
黄立维,陈金媛,松田仁树;线-筒式脉冲电晕反应器降解三氯乙烯废气研究,高校化学工程学报,2007,21(4):689-694。
黄立维,林鑫海,顾巧浓,王晓云,吴丹丹;电晕—吸收法治理甲苯废气研究,环境科学学报,2006,26(1):19-23
黄立维,松田仁树;电晕—吸收法治理NOx废气技术研究,化工学报,2004,(6)124-128.
黄立维,松田仁树;非热等离子体结合CuO催化剂或Ca(OH)2吸收剂去除氮氧化物,环境科学, 2006,27(10):21-26
(5)黄立维,陈江,岳桥,倪建国,张钰靓;化工制药工艺残渣燃烧过程固氯研究;环境污染与防治,2006,28(12):888-894
陈江, 黄立维,章旭明; 垃圾衍生燃料热重-红外联用法的热解特性,环境科学与技术,2008,31(1):29-32,ISSN 1003-6504
吴彭江; 孙明轩; 潘利红; 黄立维; 基于最小一乘能量预测的冰球式蓄冷系统, 浙江工业大学学报2009,37(3):311-315+319
洪波;黄立维;祝成凤;党永霞;何联候;脉冲电晕处理三乙胺的实验研究,浙江工业大学学报,2012,40(4):168-171
祝成凤; 黄立维; 张永霞; 何联候;;脉冲放电等离子体甲烷氯化制氯代甲烷,浙江工业大学学报,2012,40(2):161-164
高林; 黄立维; 王植盈; 胡小超;电化学反应器去除氮氧化物废气实验研究,浙江工业大学学报,2010,38(4):380-383
张晓,崔凯军, 黄立维,赵勇,张永霞;电化学反应器去除硫化氢废气实验研究,浙江工业大学学报,2008,36(1):27-30
曹慧云,黄立维,张晓,徐亚静,顾巧浓,王百根;电化学反应器去除甲苯废气实验研究,浙江工业大学学报,2008,36(1):27-30
潘利红,黄立维,岳桥,赵俊,蒋梅;振动对无机盐相变材料过冷度的影响,浙江工业大学学报,2008,36(6):655-659
章旭明,黄立维,潘理红,岳桥;成核添加剂对低温相变蓄冷材料过冷度的影响研究,浙江工业大学学报,2007,35(5):501-504
王百根,岳桥,陈江,杨金福,黄立维;化工工艺残渣燃烧及氯化氢排放实验研究,浙江工业大学学报,2007,35(3):251-254
黄立维,沈土华,绿色能源技术在节能减排中的应用,环境污染与防治,2007, 29(增2):50-53
陈江,黄立维,顾巧浓;造纸污泥热解特性及动力学研究,环境科学与技术,2006,29(1):93-94+126
顾巧浓,卓明,陈娇领,黄立维;光催化降解含氯有机废气研究,浙江工业大学学报,2004,(5): 95-99
王晓云,陈娇领,张英,季凯,黄立维;脉冲电晕反应器分解含氯有机废气实验研究,浙江工业大学学报,2004,(6): 36-39
陈江,杨金福,蔡泓林,林超,黄立维;污泥的热解特性实验研究,浙江工业大学学报,2005,(3):80-83
张雪梅,钟英杰,黄立维,任建莉,徐璋;超声波缓和赤藻糖醇过冷的实验研究,浙江工业大学学报, 2005,(3):27-30
黄立维,谭天恩,施耀;高压脉冲电晕法治理有机废气实验研究,环境污染与防治,1998,1: 4-7
黄立维,谭天恩;三种电晕反应器去除有机废气比较,电工电能新技术,1998,24(1):62-65
黄立维,谭天恩;脉冲电晕法治理甲苯废气实验研究,中国环境科学, 1997, 27(5): 66-70
三、国际会议论文
Jing Wu, Liwei Huang. The mechanism of styrene removal by absorption combined with electrochemical oxidation, 8th i-CIPEC October15-18, 2014Hangzhou, China
The International Conference on Combustion, Incineration/Pyrolysis, Emission and Climate Change
Yiyan Zhu, Liwei Huang, Lihong Xu.The removal of NO in flue gas by Iron and Ferrouscompounds. 8th i-CIPEC October15-18, 2014Hangzhou, China
Yunfei LV, Guoping Li, Liwei Huang,Reaction of Methane and Carbon Tetrachloride by Pulsed Corona Plasma,8th i-CIPECOctober15-18, 2014Hangzhou, China
Ryo Uchida, Shinsuke Iijima, Hitoki Matsuda1, Mitsuhiro Kubota1, Koichi Ushiroebisu, Liwei Huang. Low-energy decomposition of CH2Cl
Liwei Huang. Removal of Malodors in Air by absorption combined with Electrochemical Oxidation, Proceedings of ISETS’2013 International Symposium on Eco Topia Science,Nagoya/Japan, December 13-15, 2013
Liwei Huang. Removal of NOx by a reactor of Pulsed Corona Combined with alkali slurry Absorption,Proceedings of ISETS’2011 Congress,2011.12
HUANG Liwei, Dang YX; Removal of SO2 and NOx by Pulsed Corona Combined with in situ Ca(OH)2 Absorption, Proceedings of the 13th APCChE Congress, 2010. 10, Taibei, China
LW Huang, Lin Gao, LY Jiang, HL Huang; Removal of Noxious gases in Air Stream by absorption combined with Electrochemical Oxidation, R’09 Twin World Congress(Resource Management and Technology for Material and Energy Efficiency), 2009.9, Nagoya, Japan(oral presentation )
LW Huang, MJ Zhan, X Zhang, L Gao, JY Chen,YX Zhang,YX Dang; Experimental Study on the Removal of Styrene in Air Stream by an Electrochemical Reactor, Proceedings of the 12th APCChE Congress, 2008. 8,
YX Zhang, JY Chen, LW Huang, X Zhang, YX Dang; Experimental Study on the Removal of H2S by an Electrochemical Reactor, Proceedings of the 12th APCChE Congress, 2008. 8,
T. Fujita, S. Agari, D. Kuchar, M. Kubota, M.S. Onyango, H. Matsuda, LW Huang, K. Yagishita; Decomposition Characteristics of Copper and Zinc Cyanide Complexes by Wet Oxidation at Low Temperatures, Proceedings of the 10th international CEST, ISSN: 1106-5516, 2007.9,Greece (ISTP收录)
A. Yokoi, T. Fujita, D. Kuchar, M. Kubota, LW Huang, H. Matsuda; Influence of Coexisting Gases on Non-thermal Plasma Decomposition of Cl- and F- containing Halide Gases, Proceedings of International Symposium on EcoTopia Science, 981-984, 2007.11,Japan
Manjun Zhan, Liwei Huang, Xi Yang; Determination of Reactive Oxygen Species (ROS) Photochemically-generated in Natural Water, Proceedings of International Symposium on EcoTopia Science, 1254-1257, 2007.11
LW Huang, T. Fujita, ZY Pan, H. Matsuda; Decomposition of trichloroethylene by a wire-in-tube plasma reactor combined with is situ absorption, Proceedings of the 11th APCChE Congress, 2006, 8, Malaysia
T. Fukuta, T. Matsubara, S. Agari, H. Matsuda, Y. Kojima, L. Huang,K. Yagishita;Decomposition of MetalCyanides inElectroplating Wastewater by Wet Oxidation,Proceedings of the 11th APCChE Congress, 2006, 8, Malaysia
LW Huang, T. Fujita, H. Matsuda; Decomposition of trichloroethylene by a non-thermal plasma reactor, Proceedings of 71st SCEJ Annual Meeting, 2006.3,
T. Kawano, T. Fujita, LW Huang, H. Matsuda, Plasma decomposition Wastewater treatment Organic chloride, Proceedings of 38st SCEJ Autumn Meeting, 2006.9, kyosyu,
T. Fujita, Y. Kojima,LW Huang, H. Matsuda, Influence of H2 source on decomposition of halides by nonthermal plasma incorporated with in situ alkaline absorption, Proceedings of the 9th international conference on environmental science and technology, 2005.9, pp426-431, ISSN:1106-5516 Greece (ISTP收录)
T. Fujita, Y. Kojima, H. Matsuda, K. Ushiroebisu, L. Huang; Decomposition of fluoridegreenhouse gases by non-thermal plasma in H-richatmosphere, Proceedings of International Symposium on EcoTopia Science,, 2005.11.
LW Huang; Decomposition of Volatile Organic Chlorides by a Pulsed Corona Reactor Combined with In Situ Absorption, Proceedings od the International Congress on the Process Industries, 2002.3, Mexico City, Mexico
S.Ozawa, LW Huang, H. Matsuda; Simultaneous Gas Cleaning of Sox and NOx from Coal Combustion Gas by Means of Manganese Oxides,Proceeding of 10th Intl. Conference on Coal Science,1999.9, Vol II, pp.1313-1316, Taiyuan, China (ISTP收录)
LW Huang, K. Nakajyo, T. Hari, S. Ozawa and H. Matsuda,Decomposition of Noxious Gases by a Non-thermal Plasma Reactor,Proceedings of International Symposium on Advanced Waste and Emission Management,2000, pp.23-24, Nagoya, Japan
ZY Pan, Z. Bao, LW Huang; Depolymerization of bisphenol A-based polycarbonate in supercritical Toluene, Proceedings of the 2th International Symposium on Supercritical fluid, 2003.11, Nagoya, Japan
ZY Pan, Z. Bao, LW Huang; Depolymerization of Plastic in Supercritical Toluene, Proceedings of the 10th APCChE Congress,2004.10, kyusyu, Japan
T. Fujita, T. Hari, Y. Kojima, H. Matsuda, LW Huang;Influence of O2 Concentration on Non-thermal Plasma Decomposition of Halide Gases Containing Cl and F,Proceedings of the 10th APCChE Congress, 2004.10, kyusyu, Japan
XM Zhang, O. Owin, LW Huang, S. ozawa, H. Matsuda; Visualization experiments on supercooling Relaxation of Erythritol by Ultrasonic Irradiation, Proceedings of 65st SCEJ Annual Meeting, 2000.3,Tokyo, Japan
Y. Saito, H. Awata, S.Ozawa, D. Hirabayashi, LW Huang, H. matsuda, Y. Goto, T. Iwashita, Chemical Improvement of coal Burnt Ash and Slag for recycling as Acid Gas absorbent, Proceedings of the 2nd Jointly Sponsered Conference between TMS(the Materials, Metals & Materials society) and the mining & materials Processing Institute of Japan, 2000, pp705-710, Japan
河野孝幸, 藤田隆文, 黄 立維, 松田仁樹; 直流パルス放電を用いた水溶液中有機塩素系除草剤のプラズマ分解,化学工学会第38回秋季大会,福岡大学 2006,9
張崇昭,中条克彦,黄立維,小澤祥二,松田仁樹;コロナ放電によるの還元分解,Proceedings of 33rd SCEJ Autumn Meeting, 2000.9, p.832, Japan
中条克彦,黄立維,小澤祥二,松田仁樹;コロナ放電を組み込んだガス流通式反応器による揮発性有機塩素化合物の除去,Proceedings of 65st SCEJ Annual Meeting, 2000.3, P.281, Japan
張崇昭,中条克彦,黄立維,小澤祥二,小島義弘,松田仁樹;非平衡プラズマによるハロゲン系化合物分解に及ぼす共存ガスの影響,Proceedings of 67st SCEJ Annual Meeting, 2002.3, P.337, Japan
中条克彦,黄立維,小澤祥二,松田仁樹;非平衡プラズマとin-situ固体吸収剤を組み合わせた揮発性有機塩素化合物の除去,Proceedings of 66st SCEJ Annual Meeting, 2001.3,.
授权发明专利
一、授权中国专利(部分)
(1)一种有害物去除装置及其去除气流中有害物的方法,ZL 201710156993.5
(2)一种氮氧化物去除装置及其去除气流中氮氧化物的方法,ZL 201710156994.X
(3)一种二氧化硫去除装置及其去除气流中二氧化硫的方法,ZL 201610157822.X
(4)一种有提高甲烷氯化物转化率的方法和专用装置,ZL 201610157931.1
(5)一种湿式放电反应器在去除废气中二氧化硫气体中的应用,ZL 201811172082.2
(6)一种湿式放电反应器在去除废气中氮氧化物中的应用,ZL 201811172081.8
(7)一种脱硝氯化铁吸附剂再生的方法,ZL 202010022678.5
(8)一种湿式放电反应器及其在降解气态污染物中的应用,ZL 201811172040.9
1986年7月毕业于浙江大学热物理低温工程专业,1991年1月获得浙江大学电厂热能动力工程专业硕士学位,1997年4月获得浙江大学化学工程专业博士学位。
1997年6月-1998年9月浙江工业大学讲师,1998年10月-2001年3月日本名古屋大学博士后,2001年4月-2006年8月浙江工业大学副教授。2005年10月-2006年9月日本名古屋大学访问学者,2006年9月-今:浙江工业大学教授。
主要从事大气污染控制、能源和资源有效利用技术的科研和相关教学工作。
在国际上首次提出了非平衡等离子体结合现场气体吸收的方法,来引导和促进有害物的降解,为该技术的工业化应用提供了一条可行的实现途径。首次发现了铁盐与一氧化氮在一定条件下的化学反应过程,并在此基础上开发了烟气氮氧化物治理及资源化回收的全新工艺,技术国际首创。发表科研论文100余篇,其中被SCI收录20篇。申请专利100余项,其中获授权国家发明专利25项,获授权美日欧韩等国家国际发明专利36项。
1、《大气污染控制工程》(双语),授课对象:环境工程专业本科生(大四),开课学期:春季;
2、《高等环境工程》(大气部分),授课对象:环境工程专业硕士研究生,开课学期:秋季;
3、《绿色能源利用技术》,授课对象:环境工程专业硕士研究生,开课学期:秋季。
发表论文:
一、外文杂志
Li-Wei Huang, Pan-Li Qiu, Jin -Yuan Chen, An-Ge Chen & Ying-Xin Liu. Removal of styrene in air stream by absorption combined with electrochemical oxidation,Environ. Technol.2020,41(16): 2140-2145.
Jinyuan Chen, Ange Chen, Panli Qiu, Liwei Huang, Qinghua Zhou.Removal of carbon disulfide from air stream by absorption combined withelectrochemical oxidation, J. Environ. Chem. Eng., 2019, 7(3):1-5
飯島伸介,内田遼,久保隆之,窪田光宏,松田仁樹,後夷光一,黄立維. 非平衡プラズマ反応器内でのジクロロメタンの分解・無機化特性に及ぼす充填誘電体粒子の影響,廃棄物資源循環学会論文誌,2015, 26(1):16-24.
Iijima, S; Nakamura, M; Yokoi, A ; Kubota, M; Huang LW; Matsuda, H Decomposition of dichloromethane and in situ alkali absorption of resulting halogenated products by a packed-bed non-thermal plasma reactor,J. Mater. Cycles Waste Manage,2011, 13(3):206-212.
LW Huang, YX Dang, Removal of SO2 and NOx by Pulsed Corona Combined with in situ Ca(OH)2 Absorption, CJChE, 2011, 19(3):518-522.
A.Yokoi, T. Fujita, D. Kuchar, M. Kubota, LW Hang, K. Ushiroebisu and H. Matsuda. Comparison of non-thermal decomposition characteristics of organo-halide gases under oxidizing and reducing atmosphere, Global NEST Journal, 2008, 10(2):249-254
T.Fukuta, S.Agari, D.Kuchar, M.Kubota, M.S. Onyango, H.Matsuda, L.Huang. Wet Oxidation Characteristics of Metal Cyanide Complexes Below 423K, Global NEST Journal, 2008, 10(1):24-30
T. Fujita, T. Kawano, LW Huang, Y. Kojima, H. Matsuda, K. Ushiroebisu; Influence of H2 on non-thermal plasma decomposition of halides incorporated with in situ alkaline absorption,J. Mater. Cycles Waste Manage, 2007, 9(1):15-20.
LW Huang, T. Fujita, XM. Zhang, H. Matsuda; Influences of H2 and O2 and In Situ Ca(OH)2 Absorption on Nonthermal Plasma Decomposition of Trichloroethylene in N2, Chem.
LW Huang, H. Matsuda; Removal of NO by a Pulsed Corona Reactor Combined with In Situ Absorption,J.AIChE,2004,50(11):2676-2681.
T. Fujita, T. Hari, Y. Kojima, H. Matsuda, LW Huang; Influence of O2 Concentration on Non-thermal Plasma Decomposition of Halide Gases Containing Cl and F, J. Chem. Eng. Jpn.(日文版), 2005, 31(3): 226-2306.
T. Hari, K. Nakajyo, LW Huang, S. Ozawa, and H. Matsuda; Influence of the Coexistence Gas and In-situ Absorbent on the Decomposition of Covalent Chlorides and Fluorides by Non-thermal Plasma, J.Chem.Eng. Jpn., (日文版), 2002, 28(5):522-527.
LW Huang, K.Nakajo, S.Ozawa, and H. Matsuda; Decomposition of Dichloromethane in a Wire-in-Tube Pulsed
LW Huang, K.Nakajo, T. Hari, S.Ozawa, and H. Matsuda; Decomposition of Carbon Tetrachloride by a Pulsed Corona Reactor Incorporated with In Situ Absorption,Ind. Eng. Chem.Res.,2001, 40(23): 5481-5486.
LW Huang, T. Hari, K. Nakajyo, S. Ozawa, and H. Matsuda; Reduction of NO by CO in a Pulsed Corona Reactor Incorporated with CuO Catalyst, J. Chem. Eng. Jpn., 2001, 35(6):1012-1016.
S.Ozawa, LW Huang, H. Matsuda and M. Hasatani;Dry Gas Cleaning of Coexisting SOx and NOx by Manganese Ore,Energy Convers Manage,2001,42(10):1987-1995.
平林大介, 黄立維,松田仁樹, 棚橋尚貴;石炭灰に含まれる石灰分の塩化水素反応特性,J. Chem.
S. Ozawa, Y. Morita, LW Huang, H. Matsuda, M. Hasatani; Oxidation of Coal Char/CaS Mixture at High Temperature, Energy Fuels, 2001, 14(1): 138-141.
D. Hirabayashi, Y. Saito, LW Huang, H. Matsuda, N. Tanahashi; Regeneration of Coal Ash as a high Capacity Acid Gas Sorbent, Transaction of materials Research Society of Japan, 2000, 25(2): 577-580
S. Ozawa, LW Huang, H. matsuda, M. Hasatani; Simultaneous Reduction of SOx and NOx in Manganese Oxides particle Beds, Transaction of materials Research Society of
二、中文杂志论文
裘盼黎 陈安格 黄立维 陈金媛 徐昕,溶液吸收结合电化学氧化降解四氢呋喃废气,高校化工学报,2020.8,34(4):1085-1090
徐晓华 许青枝 黄桂凤 王莉莉 黄立维;RuO2/Ti 阳极电化学氧化吸收氨废气,化工学报,2016,67(6):2568-2573.
吕云飞,黄立维;脉冲电晕法耦合Ca(OH)2固体吸收处理四氯乙烯废气研究,环境科学学报,2016,36(1)301-305.
王文婷,黄立维;脉冲电晕放电降解水溶液中甲苯实验研究,环境科学学报,2014,34(12):19-24
黄桂凤,黄立维;溶液吸收结合铁碳微电解法降解模拟废气中的二氯甲烷,化工学报,2014,65(9)3659-3603
王莉莉, 黄立维, 黄桂凤,陈金媛; 溶液吸收结合铁碳微电解法处理三氯乙烯废气实验研究, 高校化学工程学报,2014,28(5):1166-1169
许青枝, 黄立维, 蒋廉颖;吸收液对电化学氧化吸收甲苯废气的影响, 高校化学工程学报,2014,28(2):438-442。ISSN1003-9015
李国平,徐立红,黄桂凤,吕云飞,黄立维;脉冲电晕结合催化剂降解二氯甲烷研究,浙江工业大学学报,2014,42(5):528-533
许杭俊,黄立维;利用城市垃圾焚烧飞灰制备生态水泥的研究,热力发电,2013, 42(2):(41—44+120).
黄立维,何联候,金圣;线-筒式电晕反应器去除二硫化碳废气研究,浙江工业大学学报,2013,41(2):161-164
金圣,黄立维,李国平;在氧化和还原氛围下脉冲电晕法降解二硫化碳废气,环境科学, 2013,34(6):2121-2125 .
黄立维,陈金媛,松田仁树;线-筒式脉冲电晕反应器降解三氯乙烯废气研究,高校化学工程学报,2007,21(4):689-694。
黄立维,林鑫海,顾巧浓,王晓云,吴丹丹;电晕—吸收法治理甲苯废气研究,环境科学学报,2006,26(1):19-23
黄立维,松田仁树;电晕—吸收法治理NOx废气技术研究,化工学报,2004,(6)124-128.
黄立维,松田仁树;非热等离子体结合CuO催化剂或Ca(OH)2吸收剂去除氮氧化物,环境科学, 2006,27(10):21-26
(5)黄立维,陈江,岳桥,倪建国,张钰靓;化工制药工艺残渣燃烧过程固氯研究;环境污染与防治,2006,28(12):888-894
陈江, 黄立维,章旭明; 垃圾衍生燃料热重-红外联用法的热解特性,环境科学与技术,2008,31(1):29-32,ISSN 1003-6504
吴彭江; 孙明轩; 潘利红; 黄立维; 基于最小一乘能量预测的冰球式蓄冷系统, 浙江工业大学学报2009,37(3):311-315+319
洪波;黄立维;祝成凤;党永霞;何联候;脉冲电晕处理三乙胺的实验研究,浙江工业大学学报,2012,40(4):168-171
祝成凤; 黄立维; 张永霞; 何联候;;脉冲放电等离子体甲烷氯化制氯代甲烷,浙江工业大学学报,2012,40(2):161-164
高林; 黄立维; 王植盈; 胡小超;电化学反应器去除氮氧化物废气实验研究,浙江工业大学学报,2010,38(4):380-383
张晓,崔凯军, 黄立维,赵勇,张永霞;电化学反应器去除硫化氢废气实验研究,浙江工业大学学报,2008,36(1):27-30
曹慧云,黄立维,张晓,徐亚静,顾巧浓,王百根;电化学反应器去除甲苯废气实验研究,浙江工业大学学报,2008,36(1):27-30
潘利红,黄立维,岳桥,赵俊,蒋梅;振动对无机盐相变材料过冷度的影响,浙江工业大学学报,2008,36(6):655-659
章旭明,黄立维,潘理红,岳桥;成核添加剂对低温相变蓄冷材料过冷度的影响研究,浙江工业大学学报,2007,35(5):501-504
王百根,岳桥,陈江,杨金福,黄立维;化工工艺残渣燃烧及氯化氢排放实验研究,浙江工业大学学报,2007,35(3):251-254
黄立维,沈土华,绿色能源技术在节能减排中的应用,环境污染与防治,2007, 29(增2):50-53
陈江,黄立维,顾巧浓;造纸污泥热解特性及动力学研究,环境科学与技术,2006,29(1):93-94+126
顾巧浓,卓明,陈娇领,黄立维;光催化降解含氯有机废气研究,浙江工业大学学报,2004,(5): 95-99
王晓云,陈娇领,张英,季凯,黄立维;脉冲电晕反应器分解含氯有机废气实验研究,浙江工业大学学报,2004,(6): 36-39
陈江,杨金福,蔡泓林,林超,黄立维;污泥的热解特性实验研究,浙江工业大学学报,2005,(3):80-83
张雪梅,钟英杰,黄立维,任建莉,徐璋;超声波缓和赤藻糖醇过冷的实验研究,浙江工业大学学报, 2005,(3):27-30
黄立维,谭天恩,施耀;高压脉冲电晕法治理有机废气实验研究,环境污染与防治,1998,1: 4-7
黄立维,谭天恩;三种电晕反应器去除有机废气比较,电工电能新技术,1998,24(1):62-65
黄立维,谭天恩;脉冲电晕法治理甲苯废气实验研究,中国环境科学, 1997, 27(5): 66-70
三、国际会议论文
Jing Wu, Liwei Huang. The mechanism of styrene removal by absorption combined with electrochemical oxidation, 8th i-CIPEC October15-18, 2014Hangzhou, China
The International Conference on Combustion, Incineration/Pyrolysis, Emission and Climate Change
Yiyan Zhu, Liwei Huang, Lihong Xu.The removal of NO in flue gas by Iron and Ferrouscompounds. 8th i-CIPEC October15-18, 2014Hangzhou, China
Yunfei LV, Guoping Li, Liwei Huang,Reaction of Methane and Carbon Tetrachloride by Pulsed Corona Plasma,8th i-CIPECOctober15-18, 2014Hangzhou, China
Ryo Uchida, Shinsuke Iijima, Hitoki Matsuda1, Mitsuhiro Kubota1, Koichi Ushiroebisu, Liwei Huang. Low-energy decomposition of CH2Cl
Liwei Huang. Removal of Malodors in Air by absorption combined with Electrochemical Oxidation, Proceedings of ISETS’2013 International Symposium on Eco Topia Science,Nagoya/Japan, December 13-15, 2013
Liwei Huang. Removal of NOx by a reactor of Pulsed Corona Combined with alkali slurry Absorption,Proceedings of ISETS’2011 Congress,2011.12
HUANG Liwei, Dang YX; Removal of SO2 and NOx by Pulsed Corona Combined with in situ Ca(OH)2 Absorption, Proceedings of the 13th APCChE Congress, 2010. 10, Taibei, China
LW Huang, Lin Gao, LY Jiang, HL Huang; Removal of Noxious gases in Air Stream by absorption combined with Electrochemical Oxidation, R’09 Twin World Congress(Resource Management and Technology for Material and Energy Efficiency), 2009.9, Nagoya, Japan(oral presentation )
LW Huang, MJ Zhan, X Zhang, L Gao, JY Chen,YX Zhang,YX Dang; Experimental Study on the Removal of Styrene in Air Stream by an Electrochemical Reactor, Proceedings of the 12th APCChE Congress, 2008. 8,
YX Zhang, JY Chen, LW Huang, X Zhang, YX Dang; Experimental Study on the Removal of H2S by an Electrochemical Reactor, Proceedings of the 12th APCChE Congress, 2008. 8,
T. Fujita, S. Agari, D. Kuchar, M. Kubota, M.S. Onyango, H. Matsuda, LW Huang, K. Yagishita; Decomposition Characteristics of Copper and Zinc Cyanide Complexes by Wet Oxidation at Low Temperatures, Proceedings of the 10th international CEST, ISSN: 1106-5516, 2007.9,Greece (ISTP收录)
A. Yokoi, T. Fujita, D. Kuchar, M. Kubota, LW Huang, H. Matsuda; Influence of Coexisting Gases on Non-thermal Plasma Decomposition of Cl- and F- containing Halide Gases, Proceedings of International Symposium on EcoTopia Science, 981-984, 2007.11,Japan
Manjun Zhan, Liwei Huang, Xi Yang; Determination of Reactive Oxygen Species (ROS) Photochemically-generated in Natural Water, Proceedings of International Symposium on EcoTopia Science, 1254-1257, 2007.11
LW Huang, T. Fujita, ZY Pan, H. Matsuda; Decomposition of trichloroethylene by a wire-in-tube plasma reactor combined with is situ absorption, Proceedings of the 11th APCChE Congress, 2006, 8, Malaysia
T. Fukuta, T. Matsubara, S. Agari, H. Matsuda, Y. Kojima, L. Huang,K. Yagishita;Decomposition of MetalCyanides inElectroplating Wastewater by Wet Oxidation,Proceedings of the 11th APCChE Congress, 2006, 8, Malaysia
LW Huang, T. Fujita, H. Matsuda; Decomposition of trichloroethylene by a non-thermal plasma reactor, Proceedings of 71st SCEJ Annual Meeting, 2006.3,
T. Kawano, T. Fujita, LW Huang, H. Matsuda, Plasma decomposition Wastewater treatment Organic chloride, Proceedings of 38st SCEJ Autumn Meeting, 2006.9, kyosyu,
T. Fujita, Y. Kojima,LW Huang, H. Matsuda, Influence of H2 source on decomposition of halides by nonthermal plasma incorporated with in situ alkaline absorption, Proceedings of the 9th international conference on environmental science and technology, 2005.9, pp426-431, ISSN:1106-5516 Greece (ISTP收录)
T. Fujita, Y. Kojima, H. Matsuda, K. Ushiroebisu, L. Huang; Decomposition of fluoridegreenhouse gases by non-thermal plasma in H-richatmosphere, Proceedings of International Symposium on EcoTopia Science,, 2005.11.
LW Huang; Decomposition of Volatile Organic Chlorides by a Pulsed Corona Reactor Combined with In Situ Absorption, Proceedings od the International Congress on the Process Industries, 2002.3, Mexico City, Mexico
S.Ozawa, LW Huang, H. Matsuda; Simultaneous Gas Cleaning of Sox and NOx from Coal Combustion Gas by Means of Manganese Oxides,Proceeding of 10th Intl. Conference on Coal Science,1999.9, Vol II, pp.1313-1316, Taiyuan, China (ISTP收录)
LW Huang, K. Nakajyo, T. Hari, S. Ozawa and H. Matsuda,Decomposition of Noxious Gases by a Non-thermal Plasma Reactor,Proceedings of International Symposium on Advanced Waste and Emission Management,2000, pp.23-24, Nagoya, Japan
ZY Pan, Z. Bao, LW Huang; Depolymerization of bisphenol A-based polycarbonate in supercritical Toluene, Proceedings of the 2th International Symposium on Supercritical fluid, 2003.11, Nagoya, Japan
ZY Pan, Z. Bao, LW Huang; Depolymerization of Plastic in Supercritical Toluene, Proceedings of the 10th APCChE Congress,2004.10, kyusyu, Japan
T. Fujita, T. Hari, Y. Kojima, H. Matsuda, LW Huang;Influence of O2 Concentration on Non-thermal Plasma Decomposition of Halide Gases Containing Cl and F,Proceedings of the 10th APCChE Congress, 2004.10, kyusyu, Japan
XM Zhang, O. Owin, LW Huang, S. ozawa, H. Matsuda; Visualization experiments on supercooling Relaxation of Erythritol by Ultrasonic Irradiation, Proceedings of 65st SCEJ Annual Meeting, 2000.3,Tokyo, Japan
Y. Saito, H. Awata, S.Ozawa, D. Hirabayashi, LW Huang, H. matsuda, Y. Goto, T. Iwashita, Chemical Improvement of coal Burnt Ash and Slag for recycling as Acid Gas absorbent, Proceedings of the 2nd Jointly Sponsered Conference between TMS(the Materials, Metals & Materials society) and the mining & materials Processing Institute of Japan, 2000, pp705-710, Japan
河野孝幸, 藤田隆文, 黄 立維, 松田仁樹; 直流パルス放電を用いた水溶液中有機塩素系除草剤のプラズマ分解,化学工学会第38回秋季大会,福岡大学 2006,9
張崇昭,中条克彦,黄立維,小澤祥二,松田仁樹;コロナ放電によるの還元分解,Proceedings of 33rd SCEJ Autumn Meeting, 2000.9, p.832, Japan
中条克彦,黄立維,小澤祥二,松田仁樹;コロナ放電を組み込んだガス流通式反応器による揮発性有機塩素化合物の除去,Proceedings of 65st SCEJ Annual Meeting, 2000.3, P.281, Japan
張崇昭,中条克彦,黄立維,小澤祥二,小島義弘,松田仁樹;非平衡プラズマによるハロゲン系化合物分解に及ぼす共存ガスの影響,Proceedings of 67st SCEJ Annual Meeting, 2002.3, P.337, Japan
中条克彦,黄立維,小澤祥二,松田仁樹;非平衡プラズマとin-situ固体吸収剤を組み合わせた揮発性有機塩素化合物の除去,Proceedings of 66st SCEJ Annual Meeting, 2001.3,.
授权发明专利
一、授权中国专利(部分)
(1)一种有害物去除装置及其去除气流中有害物的方法,ZL 201710156993.5
(2)一种氮氧化物去除装置及其去除气流中氮氧化物的方法,ZL 201710156994.X
(3)一种二氧化硫去除装置及其去除气流中二氧化硫的方法,ZL 201610157822.X
(4)一种有提高甲烷氯化物转化率的方法和专用装置,ZL 201610157931.1
(5)一种湿式放电反应器在去除废气中二氧化硫气体中的应用,ZL 201811172082.2
(6)一种湿式放电反应器在去除废气中氮氧化物中的应用,ZL 201811172081.8
(7)一种脱硝氯化铁吸附剂再生的方法,ZL 202010022678.5
(8)一种湿式放电反应器及其在降解气态污染物中的应用,ZL 201811172040.9
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更新时间:2022.12.22
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