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杨建广
2023-05-18 13:35
  • 杨建广
  • 杨建广 - 教授 博士生导师 硕士生导师-中南大学-冶金与环境学院-个人资料

近期热点

资料介绍

个人简历


工作经历
2005.7—2007.6 日本名古屋大学 COE研究员
2007.07—2014.09 中南大学 冶金与环境学院 副教授
2014.09- 至今 中南大学 冶金与环境学院 教 授
入选教育部“新世纪优秀人才”、中南大学“升华育英优秀人才”;中国《湿法冶金》编委、中国环境学会、中国无机盐行业锌盐专家组成员。
主持国家重点研发专项课题、国家自然科学基金、湖南省科技重大专项课题,以及企业横向合作项目等科研项目30余项,发表SCI、EI收录文章50余篇次,独著学术专著1部、参著2部,授权专利30余项,获省(部)级科技奖励1项。
【第一发明人授权发明专利】
[1] 杨建广;南天翔;丁龙;杨建英;李树超;陈冰;一种锑的低温熔盐电解清洁冶金方法及装置, 2018-11-30,中国,ZL201710775124.0.
[2] 杨建广;刘恢;唐朝波;李陵晨;南天翔;闫万鹏;汪文超;一种硫化锑精矿冶炼工艺, 2020-03-13,中国, ZL201910323847.6.
[3] 杨建广;刘小文;李静;邓自祥;陈永明;唐朝波;杨声海;何静; 唐谟堂;一种锑或铋的湿法-火法联合冶炼工艺, 2014-01-29,中国,ZL201110452307.1.
[4] 杨建广;方喜;柴立元;闵小波;李陵晨;闫万鹏;丁龙;南天翔; 一种从冶金含镉烟尘中回收镉的方法及从镉-氨溶液中回收镉的装置, 2019-11-12,中国,ZL201810060163.7.
[5] 杨建广;郑诗礼;何静;张盈;唐朝波;杨声海;陈永明;从铜镉渣中回收铜、镉的方法及从富镉硫酸锌溶液中回收镉的装置, 2015-12-30,中国,ZL201310533532.7.
[6] 杨建广; 焌源; 雷杰; 杨声海; 何静; 唐朝波; 陈永明; 一种基于盐酸-锡盐体系的退锡水及从废退锡水中回收锡的方法, 2016-06-29,中国,ZL201410011267.0.
[7] 杨建广;闫万鹏;朱和平;李陵晨;刘山; 一种低品位复杂镍钼矿清洁预处理方法, 2019-07-26,中国,ZL201810317126.X.
[8] 杨建广;南天翔;丁龙;杨建英; 李树超;陈冰;一种高铋铅合金分离铅、铋的工艺, 2018-09-28,中国,ZL201710443104.3.
[9] 杨建广;李树超;丁龙;南天翔;陈冰;杨建英;一种堇青石型废汽车尾气三元催化剂粗提方法, 2019-03-05,中国,ZL201710417993.6.
[10] 杨建广;丁龙;李树超;杨建英;南天翔;陈冰;一种锡渣低温熔盐电解清洁冶金方法及装置, 2018-11-30,中国,ZL201710776133.1.
[11] 杨建广;方亚飞;黄山多;文涛;徐芳; 从粗锡精炼渣中回收锡的方法, 2017-06-13,中国,ZL201410405892.3.
[12] 杨建广;丁龙;南天翔;杨建英;李树超;陈冰;一种铋的低温熔盐电解清洁冶金方法及装置, 2018-11-30,中国,ZL201710773592.4.
[13] 杨建广;唐朝波;李陵晨;邓鑫杰;汪文超; 一种PCB板镀锡-退锡体系及应用方法, 2020-04-13,中国,ZL201910141710.9.
[14] 杨建广;唐好;李陵晨;南天翔;丁龙;闫万鹏; 一种粗铅电解精炼的电解液及电解方法, 2019-09-13,中国,ZL201810765561.9.
[15] 杨建广;丁龙;李陵晨;南天翔;刘山;闫万鹏;杨建英; 一种硫酸铅渣湿法清洁处理的方法, 2019-08-23,中国,ZL201810618688.8.
[16] 杨建广;闫万鹏;朱和平;李陵晨;刘山; 一种低品位复杂镍钼矿清洁冶炼工艺, 2019-07-26,中国,ZL201810317127.4.
[17] 杨建广;史伟强;李树超;陈冰;杨建英;丁龙;南天翔; 一种高铋铅阳极泥或铋渣的处理方法, 2018-07-03,中国,ZL201710239434.0.
[18] 杨建广;陈冰;李树超; 一种从废弃线路板中清洁分离各类元器件并回收锡的方法及装置, 2018-12-21, 中国,ZL201610699769.6.
[19] 杨建广;陈冰;李树超;史伟强;吕元录; 一种从废镀锡包铜铁针中分离回收锡、铜、铁的方法, 2017-06-27,中国,ZL 201610212724.1.
[20] 杨建广;吕元录;史伟强;李树超;陈冰; 一种含镍黄铁矿烧渣增值利用的清洁工艺, 2017-12-01,中国,ZL201610185814.6.
[21] 杨建广;彭思尧;吕元录;雷杰;史伟强; 一种从废弃金刚石刀具中综合回收金刚石及各种金属资源的清洁工艺, 2017-05-17,中国,ZL201510388700.7.
[22] 杨建广;雷杰;彭思尧;李焌源;何静;杨声海;唐朝波;陈永明; 一种从锡阳极泥中回收锡的工艺, 2017-02-22,中国,ZL201510043995.4.
[23] 杨建广;邓自祥;张绪亮;李焌源;唐朝波; 一种从含银锌精矿中提取银并提高锌精矿品质的方法, 2016-07-13,中国,ZL201310152951.6.
[24] 杨建广;张绪亮;刘小文;邓自祥;何静;杨声海;陈永明; 一种锡酸钠溶液深度净化的方法, 2013-12-18,中国,ZL201210165214.5.
[25] 杨建广;张绪亮;刘小文;邓自祥; 一种制备二氧化锡粉的方法及装置, 2014-04-30,中国,ZL201210167893.X.
[26] 杨建广;唐朝波;唐谟堂;何静;杨声海; 一种铋或锑湿法清洁冶金方法, 2011-11-23,中国,ZL201010132390.X.
[27] 杨建广;唐谟堂;杨声海;唐朝波;何静; 一种纳米铜粉及铜浆料的制备方法, 2010-05-19,中国,ZL200710035287.1.
[28] 杨建广;唐朝波;何静;杨声海;唐谟堂; 一种从电子废弃物中提取有价金属的方法, 2011-12-21,中国,ZL200910303503.5.
[29] 杨建广;唐谟堂;杨声海;唐朝波;何静;姚维义;鲁君乐; 一种纳米锑掺杂二氧化锡粉的制备方法, 2010-05-19,中国,ZL200510031786.4
[30] 杨建广;李陵晨;唐朝波; 邓新杰; 南天翔;丁龙; 闫万鹏; 汪文超; 一种PCB板两段退锡的方法, 2020-07-10, 中国, ZL201811126057.0
【学术专著】
[1] 杨建广; 《锡阳极泥制取纯(NH4)2SnCl6、Sb4O5Cl2及纳米ATO的新工艺和理论研究》,金琅学术出版社, 2016, ISBN:978-3-639-82810-8.
[2] 唐谟堂; 杨建广; 《精细冶金》, 中南大学出版社, 2017, ISBN: 978-7-5487-2958-7.

研究领域


[1].1)重金属锡、锑、铋清洁冶金技术及基础; 2)电子废弃物资源循环利用过程关键技术及原理; 3)重金属固废资源清洁、高效循环利用; 4)精细冶金技术及原理。""

近期论文


[1] Yang, Jian-guang; Liu, Shan; Zeng, Weizhi*; Li, Bo; Li, Ken; Hu, Hui; Ding, Wenjie; Experimental analysis of the performance of innovative circulation configurations for cleaner copper electrolysis [J]. Hydrometallurgy, 2019, (189):105145.
[2] Yang Jian-guang *; Wu Yong-tian; A hydrometallurgical process for the separation and recovery of antimony [J]. Hydrometallurgy, 2014.01.02, 143: 68-74.
[3] Yang, Jian-guang*; Wu, Yong-tian; Li, Jing; Recovery of ultrafine copper particles from metal components of waste printed circuit boards [J]. Hydrometallurgy, 2012, (121): 1-6.
[4] Yang, Jian-guang*; Yang, Jian-ying; Tang, Mo-tang; Tang, Chao-bo; Liu, Wei; The solvent extraction separation of bismuth and molybdenum from a low grade bismuth glance flotation concentrate [J]. Hydrometallurgy, 2009, 96(4): 342-348.
[5] Yang, Jian-guang*; Tang, Chao-bo; Yang, Sheng-hai; He, Jing; Tang, Mo-tang; The separation and electrowinning of bismuth from a bismuth glance concentrate using a membrane cell [J]. Hydrometallurgy, 2009, 100(1-2): 5-9.
[6] Yang Jian-guang*; Lei Jie; Peng Si-yao; Lv Yuan-lu; Shi Wei-qiang; A new membrane electro-deposition based process for tin recovery from waste printed circuit boards [J]. Journal of Hazardous Materials, 2016, 304: 409-416.
[7] Yang, Jian-guang*; Tang, Chao-bo; He, Jing; Yang, Sheng-Hai; Tang, Mo-tang; Heavy metal removal and crude bio-oil upgrade from Sedum alfredii Hance harvest using hydrothermal upgrading [J]. Journal of Hazardous Materials, 2010, 179(1-3): 1037-1041.
[8] Yang, Jian-Guang*; Zhang, Xu-Liang; Yang, Jian-Ying; Separation of Silver from a Zinc Sulfide Concentrate by a Co-smelting Process [J]. JOM, 2015, 67(2): 477-483.
[9] Yang, Jian-guang*; Zhou, Yuan-lin; Xiong, Guo-qiang; A New Method for Preparing Pentakis (Diethylamido) Tantalum [J]. Electrochemistry, 2012, 80(1): 26-29.
[10] Yang, Jian-Guang*; Tang, Chao-Bo; Chen, Yong-Ming; Tang, Mo-Tang; Separation of Antimony from a Stibnite Concentrate Through a Low-Temperature Smelting Process to Eliminate SO2 Emission [J], Metallurgical and Materials Transactions B, 2011, 42(1): 30-36.
[11] Yang, Jian-Guang*; Yang, Sheng-Hai; Tang, Chao-Bo; The Membrane Electrowinning Separation of Antimony from a Stibnite Concentrate [J]. Metallurgical and Materials Transactions B, 2010, 41(3): 527-534.
[12] Yang, Jian-Guang*; He, De-Wen; Tang, Chao-Bo; Chen, Yong-Ming; Sun, Ya-Hui; Tang, Mo-Tang; Thermodynamics calculation and experimental study on separation of bismuth from a bismuth glance concentrate through a low-temperature molten salt smelting process [J]. Metallurgical and Materials Transactions B, 2011, 42(4): 730-737.
[13] Yang Jian-guang*; Wu Yong-tian; Zhang Xu-liang; Study on separation of tin from a low-grade tin concentrate through leaching and low-temperature smelting processes [J]. Transactions of the Institutions of Mining and Metallurgy, Section C: Mineral Processing and Extractive Metallurgy, 2014, 123(4): 228-233.
[14] Yang Jian-guang*; Li Jun-yuan; Zhang Xu-liang; Yang Jian-ying; Hydrothermal processing of arsenic containing bioremediation biomass: Pteris vittata [J]. Journal of Environmental Chemical Engineering, 2014, 2(3): 1358-1364.
[15] Yang, Jian-guang*; Heavy metal removal and crude bio-oil upgrading from Sedum plumbizincicola harvest using hydrothermal upgrading process [J]. Bioresource Technology, 2010, 101(19): 7653-7657.
[16] Yang Jian-guang*; Peng Chang-hong; Tang Chao-bo; Tang Mo-tang; Zhou Ke-cao; Zinc removal from hyperaccumulator Sedum alfredii Hance biomass [J]. Transactions of Nonferrous Metals Society of China, 2009, 19(5): 1353-1359.
[17] Yang, Jian-Guang*; Yang, Jian-Ying; Peng, Chang-Hong; Tang, Chao-Bo; Zhou, Ke-Cao; Recovery of zinc from hyperaccumulator plants: Sedum plumbizincicola [J]. Environmental Technology, 2009, 30(7): 693-700.
[18] Yang, Jian-Guang*; Zhou, Yuan-Lin; Okamoto, Takeshi; Ichino, Ryoichi; Okido, Masazumi; Surface modification of antioxidated nanocopper particles preparation in polyol process [J]. Surface Engineering, 2007, 23(6): 448-452.
[19] Yang, Jian-guang*; Zhou, Yuang-lin; Okamoto, Takeshi; Ichino, Ryoichi; Okido, Masazumi; A new method for preparing hydrophobic nano-copper powders [J]. Journal of Materials Science, 2007, 42(18): 7638-7642.
[20] Yang, Jian-guang*; Yang, Sheng-hai; Okamoto, Takeshi; Bessho, Takeshi; Satake, Shigeru; Ichino, Ryoichi; Okido, Masazumi; Synthesis of copper monolayer and particles at aqueous-organic interface [J]. Surface Science, 2006, 600(24): 318-320.
[21] Yang, Jian-guang*; Okamoto, Takeshi; Ichino, Ryoichi; Bessho, Takeshi; Satake, Shigeru; Okido, Masazumi; A simple way for preparing antioxidation nano-copper powders [J]. Chemistry Letters, 2006, 35(6): 648-649.
[22] Yang, Jian-guang*; Zhou, Yuang-lin; Okamoto, Takeshi; Bessho, Takeshi; Satake, Shigeru; Ichino, Ryoichi; Okido, Masazumi; Preparation of oleic acid-capped copper nanoparticles [J]. Chemistry Letters, 2006, 35(10): 1190-1191.
[23] Yang, Jian-guang*; Electrosynthesis, Characterization, and Thermal Property Analysis of Pentakis (Diethylamido) Tantalum [C]. TMS 140th Annual Meeting and Exhibition, San Diego, CA. 2011, 741-748.
[24] Yang Jian-guang*; Yang Sheng-hai; Tang Chao-bo; He Jing; Tang Mo-tang; Synthesis of ultrafine copper particles by complex-reduction-extraction method [C]. International Conference of Nonferrous Materials (ICNFM), Changsha, China. 2007, (17): S1181-S1185.
[25] Peng, Si-yao; Yang, Jian-guang*; Yang, Jian-ying; Lei jie; The Recovery of Bismuth from Bismuthinite Concentrate Through Membrane Electrolysis [C]. Rare Metal Technology, 4th Symposium on Rare Metal Extraction and Processing, San Diego, CA. 2017, 285-301.
[26] Nan Tianxiang; Yang Jianguang*; Chen Bing; Electrochemical mechanism of tin membrane electrodeposition under ultrasonic waves [J]. Ultrasonics Sonochemistry, 2018, 42: 731-737.
[27] Nan, Tian xiang; Yang, Jian guang*; Wang, Wen chao; Li, Ling chen; Yang, Jian ying; Process and anodic reaction mechanism of cadmium electrically enhanced cementation on zinc plate under an ultrasonic field in ammoniacal system [J]. Transactions of Nonferrous Metals Society of China, 2019, 29(9): 1967-1974.
[28] Lei, Jie; Yang, Jian-guang*; Electrochemical mechanism of tin membrane electro-deposition in chloride solutions [J]. Journal of Chemical Technology and Biotechnology, 2017, 92(4): 861-867.
[29] He, De-wen; Yang, Jian-guang*; Tang, Chao-bo; Chen, Yong-ming; Tang, Mo-tang; Separation of bismuth from a bismuth glance concentrate through a low-temperature smelting process [J]. Mineral Processing and Extractive Metallurgy Review, 2013, 34(2): 73-80.
[30] Tang, Mo-Tang; Yang, Jian-Guang*; Yang, Sheng-Hai; Tang, Chao-Bo; Chen, Yong-Ming; Thermodynamic analysis of Sn(IV)-Sb(III)-NH3-NH4Cl-H2O system and its application [J]. Journal of Central South University(Science and Technology), 2005, 36(4): 582-586.
[31] Chen, Bing; Zeng, Weizhi*; Nan, Tianxiang; Yang, Jianguang*; Xiao, Ruiyang; Tang, Chong Jian; Liang, Yanjie; Free, Michael L; Study of Tin Electrodeposition with Anion Exchange Membrane in Chloride Solution by a Computational Method [J]. Journal of the Electrochemical Society, 2019, 166(2): E7-E21.
[32] 杨建广*; 陈冰; 雷杰; 李树超; 废弃电路板铜锡多金属粉隔膜电积回收锡实验研究 [J]. 东北大学学报(自然科学版), 2017, 38(11): 1648-1653.
[33] 杨建广*; 雷杰; 彭思尧; 何静; 戚春萍; 王夏阳; 李焌源;从铜镉渣浸出液中电加强置换提取镉 [J]. 中国有色金属学报, 2015, 25(8): 2268-2275.
[34] 杨建广*; 吴玉山; 杨济豪; 陈胜龙; 高亮; 刘小文; 电化学合成5-二乙基胺钽及钽阳极电溶解机理 [J].稀有金属材料与工程, 2012, (10): 1799-1803.
[35] 杨建广*; 唐谟堂; 杨声海; 唐超波; 陈永明; Sn(Ⅳ)-Sb(Ⅲ)-NH3-NH4Cl-H2O体系热力学分析及其应用 [J]. 中南大学学报(自然科学版), 2005, (04): 582-586.
[36] 杨建广*; 唐谟堂; 杨声海; 唐朝波; 配合-共沉淀法制备锑掺杂二氧化锡(ATO)粉 [J]. 中国有色金属学报, 2005, 15(6): 966-974.
[37] 杨建广*;李树超;李陵晨;闫万鹏;丁龙;南天翔; 废铜包铁针NH3-(NH4)2SO4-H2N(CH2)2NH2体系隔膜电解回收铜 [J]. 中国有色金属学报, 2019,(8): 1721-1732.
[38] 杨建广*; 唐谟堂; 杨声海; 唐超波; 一种回收锡二次资源的新工艺 [J]. 湿法冶金, 2005, 24(2): 97-101.
[39] 李陵晨; 杨建广*; 闫万鹏; 丁龙; 南天翔; 陈冰; SnCl4-HCl体系废电路板元器件的分离及锡的回收 [J]. 中国有色金属学报, 2019, (07): 1543-1550.
[40] 南天翔; 杨建广*; 陈冰; 李树超; 丁龙; 超声耦合隔膜电积锡电化学机理 [J]. 中国有色金属学报, 2018, (06): 1233-1241.
[41] 李树超; 杨建广*; 陈冰; 丁龙; 南天翔; NH3-NH4Cl-H2O体系低品位硫化铜矿氧化浸出-脉冲电积工艺 [J]. 中国有色金属学报, 2018, (12): 2558-2567.
[42] 吕元录; 杨建广*; 李焌源; 史伟强; 李树超; 陈冰; 蜈蚣草水热液化后处理及生物油改性 [J]. 环境工程学报, 2017, 11(3): 1891-1898.
[43] 彭思尧; 杨建广*; 陈冰; 李树超; 雷杰; 李焌源; 含锡二次资源隔膜电积回收锡新工艺试验 [J]. 中国有色金属学报, 2016,(12): 2656-2667.
[44] 邓自祥; 杨建广*; 李焌源; 张绪亮; 蜈蚣草茎叶收获物“水热液化”脱除重金属及生物油转化 [J]. 中南大学学报(自然科学版), 2015, (01): 358-365.
[45] 邓自祥; 杨建广*; 李焌源; 张绪亮; 垂序商陆茎叶收获物“水热液化”脱除重金属及生物质转化 [J]. 环境工程学报, 2014, (9): 3919-3926.
[46] 丁龙; 杨建广*; 闫万鹏; 李树超; 南天翔; 李陵晨; 从堇青石型失效汽车尾气催化剂中富集铂族金属试验研究 [J]. 湿法冶金, 2018, (05): 376-383.
[47] 刘小文; 杨建广*; 伍永田; 李静; 唐朝波; 陈永明; 唐谟堂; 由辉锑矿低温固硫熔炼制取粗锑 [J]. 中国有色金属学报, 2012, (10): 2896-2901.
[48] 刘小文; 杨建广*; 李静; 陈永明; 孙亚辉; 唐谟堂; Bi2S3-ZnO-Na2CO3体系热力学分析及应用 [J]. 中国有色金属学报, 2012, 22(1): 310-314.
[49] 高亮; 杨建广*; 陈胜龙; 刘小文; 李静; 唐谟堂; 硫化锑精矿湿法清洁冶金新工艺 [J]. 中南大学学报(自然科学版), 2012, (01): 28-37.
[50] 陈胜龙; 杨建广*; 高亮; 刘小文; 吴玉山; 杨济豪; “牺牲”阳极法直接电化学合成5-二乙基胺钽 [J]. 中南大学学报(自然科学版), 2011, (11): 3251-3255.
[1]. 《湿法冶金》编委、中国环境学会、中国无机盐行业锌盐专家组成员

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