王邦达
近期热点
资料介绍
个人简历
王邦达,副教授,硕士生导师。国家烟气脱硫工程技术研究中心、四川省碳中和技术创新中心固定成员。主要从事固废资源化及环境功能材料研究,作为负责人主持国家重点研发计划子课题、国家自然科学基金、四川省国际合作项目、中国博士后科学基金等多项国家/省部级项目,已发表SCI论文20余篇,申请/授权专利10余项,获得第四届四川大学“探究式-小班化”教学竞赛奖,指导大学生创新创业计划获国家级立项,参与编写《碳中和技术概论》教材,担任SCI期刊Chinese Chemical Letters青年编委等。【学习及工作经历】2021.9-至今,四川大学建筑与环境学院,副教授2019.7-2021.9,四川大学建筑与环境学院,助理研究员/专职博士后2015.8-2019.7,清华大学环境学院,博士2017.10-2018.4,日本东京大学工学部,访学2014.7-2015.7,清华大学环境学院,科研助理2007.8-2014.6,四川大学高分子学院,本科、硕士【承担的主要课程】本科生 《固体废物处理与处置》、《碳中和:人与地球共同的未来》(通识核心课程)、《碳中和技术概论》研究生 《碳中和技术与应用案例》近五年主持/参与的课题:1.国家重点研发计划子课题,热解液加氢脱氧沸腾床外排催化剂处理技术,2020.01-2022.12,主持2.国家自然科学青年基金,基于碳-硅同步转化的秸秆热解残渣基低温脱硝催化剂构筑及其协同抗水增效机制,2022.01-2024.12,主持3.四川省国际合作项目,新型生物质炭-沸石复合材料制备及其烟气脱硫脱硝研究与应用,2020.01-2022.06,主持4.中国博士后科学基金面上项目,秸秆基介孔生物炭/分子筛膜复合材料原位制备及其膜驱动强化碳捕集机制研究,2020.09-2022.06,主持5.中石化技术开发项目,乙烯裂解炉烟气处理技术开发,2022.01-2023.12,主持6.四川大学交叉学科创新基金,烟气CO2高效沸石捕集及其电催化制备液体燃料研究,2020.01-2021.12,主持7.中央高校基本科研项目,2021.04-2021.12,主持8.企事业单位委托,成都市青白江区先进材料产业功能区工业碳普查及行动方案,2021.08-2021.09,主研9.企事业单位委托,威远县碳达峰、碳中和行动方案,2021.08-2021.12,主研10.四川省科技厅青年创新团队,大气污染源头控制与资源化四川省青年科技创新研究团队,2020.01-2021.12,团队成员获奖:2021年获得第四届四川大学“探究式-小班化”教学竞赛奖专利:1. 江霞,王邦达,袁远平,陈文华,马生贵,常玉龙。生物质快速热解及热解气燃烧烟气脱硝耦合方法与装置,中国,授权号:ZL202110310378.12.江霞,刘露,王邦达,马生贵,陈文华,蒋文举.改性生物炭低温脱硝催化剂及其应用,中国,授权号:ZL201910739828.63.江霞,龚证,王邦达等.一种富硅生物质基生物炭/介孔二氧化硅复合材料及其制备方法与应用,中国,授权号:ZL202011455787.24.王毅,王邦达,李磊.一种由粉煤灰制备钛掺杂介孔二氧化硅纳米材料的方法,中国,授权号:ZL201611073724.45.王毅,王邦达,孙应龙.一种从盐酸浸淋体系萃取精制铁盐的工艺方法,中国,授权号:ZL201710369816.56.王毅,王邦达,贾美然等.一种处理高盐废水的装置,中国,授权号:ZL201822058111.47.王毅,李亚,贾美然,王邦达.一种高纯硫酸锰的制备方法,中国,授权号:ZL201910404002.X8.王毅,李亚,艾云艳,王邦达,贾美然.一种高纯硫酸锰生产中去除钙镁离子的方法,中国,授权号:ZL201910404004.9研究领域
"1.固废资源化:生物质资源化能源化,工业固废资源化2.大气污染控制:脱硝、脱VOCs、CO2捕集3.环境功能材料:生物炭、分子筛功能材料"近期论文
1.Bangda Wang, Fengli Gan, Zhongde Dai, Shenggui Ma, Wenhua Chen, Xia Jiang*, Air oxidation coupling NH3 treatment of biomass derived hierarchical porous biochar for enhanced toluene removal.Journal of Hazardous Materials, 2021, 1239952.Zheng Gong,Bangda Wang*, Wenhua Chen, Shenggui Ma, Wenju Jiang,Xia Jiang*,Waste straw derived Mn-doped carbon/mesoporous silica catalyst forenhanced low-temperature SCR of NO.Waste Management,136 (2021) 28–353.Fengli Gan, Bowen Cheng, Ziheng Jin, Zhongde Dai,Bangda Wang*, Lin Yang, Xia Jiang, Hierarchical porous biochar from plant-based biomass through selectively removing lignin carbon from biochar for enhanced removal of toluene, Chemosphere, 2021, 1305144.Tongxiao Zhou,Bangda Wang*, Zhongde Dai, Xia Jiang, Yi Wang. Organotemplate-free synthesis of MOR zeolite from coal fly ash through simultaneously effective extraction of Si and Al.Microporous and Mesoporous Materials, 2021,314:1108725.Hao Zha, Tongxiao Zhou, Fengli Gan,Bangda Wang*, Zhongde Dai, Xia Jiang. Quantitative Study of the Enhanced Content and Chemical Stability of Functional Groups in Mesoporous Silica by In-Situ Co-Condensation Synthesis, Catalysts. 2022, 12, 620.6.Bangda Wang, Yuexi Zhou, Yi Wang*, et al. Novel synthesis of cyano-functionalized mesoporous silica nanospheres (MSN) from coal fly ash for removal of toxic metals from wastewater.Journal of Hazardous Materials, 2018,345:76-86.7.Bangda Wang, Yuexi Zhou, Yi Wang*, et al. Preparation of amidoxime-functionalized mesoporous silica nanospheres (ami-MSN) from coal fly ash for the removal of U(VI),Science of the Total Environment, 2018,626:219-227.8.Bangda Wang,Yuexi Zhou, Yi Wang*, et al. In Situ Synthesis of TiO2 Doped Mesoporous Silica from Coal Fly Ash for the Photocatalytic Degradation of Dyes,Ind. Eng. Chem. Res., 2018, 57:15632-15637.9.Bangda Wang,Yi Wang, Tatsuya Okubo*, Toru Wakihara*, et al. Insights into the ion-exchange properties of Zn(II)-incorporated MOR zeolites for the capture of multivalent cations.Physical Chemistry Chemical Physics, 2019, 21:4015-4021.10.Ziheng Jin,Bangda Wang,Xia Jiang*, et al. Air pre-oxidation induced high yield N-doped porous biochar for improving toluene adsorption. Chemical Engineering Journal,2019,385.11.Gan, F.,Wang, B., Jin, Z., Xie, L., Dai, Z., Zhou, T.,Jiang, X. *From typical silicon-rich biomass to porous carbon-zeolite composite: A sustainable approach for efficient adsorption of CO2. Science of The Total Environment, 2021, 768, 144529.12.Liu, L.,Wang, B., Yao, X., Yang, L., Jiang, W.,Jiang, X.*, Highly efficient MnOx/biochar catalysts obtained by air oxidation for low-temperature NH3-SCR of NO. Fuel, 2021, 283, 119336.13.Zhongde Dai*, Jing Deng b, Xuezhong He, Colin A. Scholes , Xia Jiang,Bangda Wang, Hongfang Guo, YuleiMa , Liyuan Deng, Helium separation using membrane technology: Recent advances and perspectives,Separation and Purification Technology, 2021, 119044.14.Yulei Ma, Hongfang Guo, Roman Selyanchyn,Bangda Wang, Liyuan Deng,Zhongde Dai*,Xia Jiang ,Hydrogen sulfide removal from natural gas using membrane technology: a review,Journal of Materials Chemistry A, 2021.15.Natsume Koike, Kenta Iyoki,Bangda Wang, Tatsuya Okubo*, et al. Increasing the ion-exchange capacity of MFI zeolites by introducing Zn to the aluminosilicate frameworks. Dalton Trans., 2018, 47: 9546–9553.16.Lei Li, Giangxia Qi,Bangda Wang, Yi Wang*, et al. Fulvic acid anchored layered double hydroxides: A multifunctional composite adsorbent for the removal of anionic dye and toxic metal.Journal of Hazardous Materials, 2018, 343: 19-28.17.Lei Li, Chao Yuan,Bangda Wang, et al. Abiotic humification of phenolic pollutant to form a hybrid adsorbent for toxic metals by LDH based composite.Applied Clay Science, 2019, 175: 139-149.1.SCI期刊CHINESE CHEMICAL LETTERS(IF=6.779)青年编委2.SCI期刊SEPARATION AND PURIFICATION TECHNOLOGY(IF=7.312)公众号编辑团队成员 相关热点
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