刘敬勇

作者: 时间:2015-10-25 点击数:

http://yzw.gdut.edu.cn/__local/A/28/38/3414F0CCD13EF3164814A88F219_29AE840A_BB6C.png

所属学院:

环境科学与工程学院

导师类别:

硕士生导师、博士生导师

务:

科研方向:

固体废物处理处置与资源化利用

联系方式:

Emailwww053991@126.com

硕士招生学院:

环境科学与工程学院

一、个人简介

  刘敬勇,男,1979年生,河南南阳人,博士,教授(2015年破格),博导。入选首批广东省高层次人才特殊支持计划,国家注册环保工程师。主要从事固体废弃物处理处置与资源化利用研究,重点探索固体废弃物处理处置与资源化利用,包括各类污泥的处理处置及资源化利用、生物质处理及能源转化、危险废物处理处置、土壤污染治理、重金属污染控制。近年来,主持的项目主要包括:国家自然科学基金2项、广州市重点研发项目1项,广东省高层次人才特殊支持计划1项、广东省高校优秀青年项目1项、广东省自然科学基金2项、广东省科技计划项目8项等纵向课题20多项,发表中英文各类论文300余篇,其中SCI论文154篇,(一区论文112篇,前1%高被引论文13篇),专利申请-授权64项(转让15件),出版教材三部(主编),参与国家标准制定1项,获得省级科技进步二等奖1项(排名5)、广东省环境保护科学技术一等奖1项、二等奖2项。目前为EST/JHM/CEJ/JCP/Energy/Fuel/WM/ECM/FPT等30多个期刊审稿人。

二、受教育经历

1999/09-2003/06 中国地质大学(武汉), 环境工程专业,学士

2003/09-2006/07 中国科学院研究生院(广州地球化学研究所),环境科学专业,硕士

2007/09-2010/06 广东工业大学,应用化学专业,博士

三、研究工作经历

2006/09-至今 广东工业大学环境科学与工程学院,讲师、副教授、教授

、人才培养

[1] 2014级学生卓钟旭2次获得研究生国家奖学金;傅杰文-获得研究生国家奖学金);

[2] 2015级学生(陈佳聪清华大学攻读博士学位-获得研究生国家奖学金—入选研究生拔尖创新人才;黄李茂—保送生-获得研究生国家奖学金-入选研究生拔尖创新人才);

[3] 2016级学生(谢灿垤-中山大学攻读博士学位-保送生-获得研究生国家奖学金-入选研究生拔尖创新人才;谢文浩-保送生-获得研究生国家奖学金-入选研究生拔尖创新人才);

[4] 2017级学生(黄建立—清华大学攻读博士学位-入选研究生拔尖创新人才—环境学院优秀毕业生;孙光—东南大学攻读博士-环境学院优秀毕业生;蔡海明—华南理工大学攻读博士-入选研究生拔尖创新人才—环境学院优秀毕业生);

[5] 2018级学生(宋玥瑶-清华大学攻读博士学位-入选研究生拔尖创新人才-广东省优秀研究生;张俊辉-保送生—中科院生态环境中心攻读博士学位-入选研究生拔尖创新人才-优秀毕业生;邹惠煌-同济大学攻读博士学位-入选研究生拔尖创新人才-优秀毕业生;胡晋文-上海交通大学攻读博士学位-入选研究生拔尖创新人才;温少婷-入选研究生拔尖创新人才);

[6] 2019级学生(黄宏艺—华南理工大学攻读博士学位-保送生-获得研究生国家奖学金-入选研究生拔尖创新人才;丁梓奕-中科院地化所攻读博士学位-方直杯奖学金获得者-入选研究生拔尖创新人才;刘辉—保送生--获得研究生国家奖学金-入选研究生拔尖创新人才-同济大学攻读博士学位;唐晓洁-入选研究生拔尖创新人才;陈志云-入选研究生拔尖创新人才;

[7] 2020级学生(吴谢缘—保送生-获得研究生国家奖学金-入选研究生拔尖创新人才;陈子红—保送生-获得研究生国家奖学金-入选研究生拔尖创新人才;傅嘉伟-获得“卓越工程”奖励计划);

[8] 2021级学生(黄升政—保送生-入选研究生拔尖创新人才-获得研究生国家奖学金;陈智斌—保送生-入选硕士研究生拔尖创新人才-广东工业大学攻读博士学位-入选博士研究生拔尖创新人才);

[9] 2022级学生(梁嘉瑜—保送生-入选研究生拔尖创新人才林森—保送生-入选研究生拔尖创新人才;林梓婷-入选研究生卓越应用型人才);

[10] 2023级学生(贾达杰—保送生-入选研究生拔尖创新人才)。

五、主要著作及获奖

1.主编《环境监测实验》,华南理工大学出版社,2012年6月出版。

2.主编《环境化学实验》,中山大学出版社,2014年5月出版。

3.主编《环境仪器分析实验》,中国建材工业出版社,2022年12月出版。

4.刘敬勇参与制定(12/13 ):《锂离子电池材料废弃物回收利用的处理方法》(GB/T 33059-2016),发布日期:2016-10-13;实施日期:2017-05-01;发布部门:中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会。本标准由全国废弃化学品处置标准化技术委员会(SAC/TC 294)归口。


5.广东省科技进步二等奖(二等,排名5).吴阳东,黄智源,谢逢春,孙水裕,刘敬勇,王永成,查正炯,刘杨,韩福勇,熊建民.含铜重金属工业危险废物资源化处理关键技术开发及产业化.2018年度广东省科学技术进步奖二等奖。授予单位:广东省科技厅。


6.2021年度广东省环境保护科学技术奖(二等,排名第一,2021年6月)。污泥掺烧过程中的污染调控关键技术研究与应用。刘敬勇,谢永新,李锐敬,陈益成,徐波,怀庆,黄睦凯,周文栋,干仕伟。授予单位:广东省环境科学学会。(广州市环境保护工程设计院有限公司、广东工业大学)。


7.2022年广东省工程勘察设计行业协会科学技术奖(三等奖,排名3)。农村生活污水资源化利用技术研究与应用(广州市环境环保工程设计院有限公司、广东工业大学)。


8.2023年度广东省环境保护科学技术奖一等奖(排名5)。城市黑臭水体微生态净化床关键技术及应用研究。刘国强、王 丽、雒怀庆、欧桦瑟、刘敬勇、徐 波、石益广、赵 成、李锐敬(广州市环境环保工程设计院有限公司、暨南大学、中国建筑第四工程局有限公司、广州珠水工程建设有限公司、广东工业大学)。


9. 2023年度广东省环境保护科学技术奖二等奖(排名8)。矿区周边重金属污染土壤电动修复关键技术研究及应用。蔡宗平、孙水裕、朱月琪、刘庭立、陈 禧、林亲铁、廖 磊、刘敬勇、孙燕(广东环境保护工程职业学院、生态环境部华南环境科学研究所、广东工业大学、核工业二九O研究所、赫尔辛基大学(芬兰))。


六、主持的项目

[1] 广州市重点研发计划(农业和社会发展科技)残留调理剂在污泥“调理脱水—干化—掺烧/热解/气化”全过程中诱发二次污染物迁移转化行为归趋、污染调控与示范应用.

[2]国家自然科学基金,污泥富氧掺烧体系中Cl/S/P-矿物质的热交互行为与多种重金属迁移的关联机制.

[3]国家自然科学基金,污泥掺烧过程中Cl/S/P交互作用对重金属迁移转化和脱除影响的机理研究.

[4]广东省首批高层次人才特殊支持计划(科技创新青年拔尖人才) .

[5]广东省科技计划(国际科技合作领域).土壤重金属高富集植物收获物处置、重金属固化稳定化机制及资源化应用研究

[6]广东工业大学第二批“培养育才”人才支持项目.

[7]广东省科技计划(国际科技合作领域),典型废弃物焚烧处理过程中重金属污染控制关键技术与设备联合研发.

[8]广东省科技计划,城市污泥干化关键技术研究及软件支撑系统研发.

[9]广东省科技计划(国际科技合作领域),残留的含Cl/S/Ca/Fe基化学调理剂在印染污泥后续掺烧过程中对典型污染物(重金属/酸性气体)逸出影响及其污染调控.

[10]广东省科技计划,深度脱水污泥焚烧过程中调理剂FeCl3-PAC/PAM/CaO交互诱发重金属迁移转化行为与过程研究.

[11]广东省科技计划(协同创新与平台环境建设),粤北典型铀矿山放射性污染控制关键技术研究与铀矿山环境信息管理系统构建.

七、代表性论文(中科院一区及二区论文

[1] Ziyi Ding, Weijie Li*, Zhibin Chen, Li Wang, Shenzheng Huang, Fatih Evrendilek, Chunxiao Yang, Haiming Cai, Sheng Zhong, Zuoyi Yang, Jingyong Liu*. Microplastics as emerging contaminants in textile dyeing sludge: Their impacts on co-combustion/pyrolysis products, residual metals, and temperature dependency of emissions. Journal of Hazardous Materials 466 (2024) 133465.

[2] Haoyu Guan, Li Wang, Jingyong Liu*, Fatih Evrendilek, Zhibin Chen, Shengzheng Huang, Sheng Zhong, Zuoyi Yang, Wencan Dai, Yao He, Chunxiao Yang. Energetic and environmental optimizations and byproduct valorization of pyrolysis of textile dyeing sludge with FeCl3. Journal of Cleaner Production 434 (2024) 139940.


[3] Jiawei FuSen LinBin Cai*Jiayu LiangZhibin ChenFatih EvrendilekSheng ZhongZuoyi YangChunxiao YangYao HeShuiyu SunJingyong Liu*. Catalytic co-pyrolysis of coffee grounds and polyethylene: A comparison of HZSM-5 and HY. Fuel 362 (2024) 130815.


[4] Xieyuan WuZhiliang ChenJingyong Liu*Zebin WeiZihong ChenFatih EvrendilekShuiyu SunZhibin Chen. Co-combustion of Zn/Cd-hyperaccumulator and textile dyeing sludge: Heavy metal immobilizations, gas-to-ash behaviors, and their temperature and atmosphere dependencies. Chemical Engineering Journal 451 (2023) 138683.

[5] Shengzheng Huang, Jingyong Liu, Siqi Chen, Jin Wang, Zhibin Chen, Fatih Evrendilek, Tao Chen*, Wenxiao Huang, Wuming Xie, Shuiyu Sun. Converting and valorizing heavy metal-laden post-harvest hyperaccumulator (Pteris vittate L.) into biofuel via acid-pretreated pyrolysis and gasification. Chemical Engineering Journal 468 (2023) 143490.

[6] Ziting Lin, Jingyong Liu*, Haiming Cai, Fatih Evrendilek, Chuanghai Zhu, Fanjin Liang, Wenxiao Huang, Weixin Lin, Chao He, Chunxiao Yang, Zuoyi Yang, Sheng Zhong, Wuming Xie, Yao He. Actionable insights into hazard mitigation of typical 3D printing waste via pyrolysis. Journal of Hazardous Materials, 460(2023)132414.

[7] Zihong Chen, Siqi Chen, Wencan Dai*, Yu Wang, Fatih Evrendilek, Jingyong Liu*, Guanjie Liang, Sheng Zhong, Zuoyi Yang, Gang Zhang, Qingbao Luo. Insights into optimal gas-ash-energy nexus: Oxy-steam combustion of spent pot lining. Journal of Cleaner Production 425 (2023) 138707.

[8] Xieyuan Wu, Li Wang, Bin Cai* , Yoshihiko Ninomiya, Fatih Evrendilek, Sheng Zhong, Zuoyi Yang, Wenchan Dai, Wenxiao Huang, Jingyong Liu *, Guanzheng Zhuang, Chunxiao Yang, Yao He. Optimal metal immobilization of oxygen-enriched co-combustion of Zn/Cd hyperaccumulator and textile dyeing sludge with natural or modified kaolin. Journal of Cleaner Production,428 (2023) 139199.

[9] Junhui Zhang, Jiacong Chen, Jingyong Liu*, Fatih Evrendilek, Gang Zhang, Zhibin Chen, Shengzheng Huang, Shuiyu Sun. Fates of heavy metals, S, and P during co-combustion of textile dyeing sludge and cattle manure. Journal of Cleaner Production, 2023,383,135316. 

[10] Zhibin Chen, Zhiliang Chen, Jingyong Liu*, Ping Zhuang, Fatih Evrendilek, Shengzheng Huang, Tao Chen*, Wuming Xie, Yao He, Shuiyu Sun. Optimizing co-combustion synergy of soil remediation biomass and pulverized coal toward energetic and gas-to-ash pollution controls, Science of The Total Environment 857 (2023) 159585.

[11] Jiawei Fu, XijianWu, Jingyong Liu*, Fatih Evrendilek, Tao Chen, Wuming Xie, Weijie Xu, Yao He*,Co-circularity of spent coffee grounds and polyethylene via co-pyrolysis: Characteristics, kinetics, and products, Fuel,2023,337, 127061.

[12] Hui Liu, Xi Chen, Xipeng Wei*, Zhibin Chen, Haoran Yuan, Fatih Evrendilek, Shengzheng Huang, Tao Chen, Wuming Xie, Sheng Zhong, Jingyong Liu. Co-thermal conversion, atmosphere, and blend type controls over heavy metals in biochars and bottom slags of textile dyeing sludge and durian shell. Fuel 352(15), 2023, 129017.

[13] Tao Chen, Xiaoming Li, Jiayu Liang, Fatih Evrendilek, Xiaocui Wen, Sen Lin, Jingyong Liu*. Combustion mechanism and ash-to-gas products of star anise residues: Atmosphere and temperature dependencies and joint optimization. Fuel,2023,336,126812.

[14] Yao He, Xi Chen, Xiaojie Tang, Siqi Chen, Fatih Evrendilek, Tao Chen, Wencan Dai, Jingyong Liu*. Co-combustion dynamics and products of textile dyeing sludge with waste rubber versus polyurethane tires of shared bikes. Journal of Environmental Chemical Engineering, 2023,11(1): 109196 .

[15] Gang Zhang, Zhiyun Chen, Tao Chen, Shaojun Jiang, Fatih Evrendilek , Shengzheng Huang, Xiaojie Tang, Ziyi Ding, Yao He, Wuming Xie, Jingyong Liu.Energetic, bio-oil, biochar, and ash performances of co-pyrolysis-gasification of textile dyeing sludge and Chinese medicine residues in response to K2CO3, atmosphere type, blend ratio, and temperature. Journal of Environmental Sciences 136 (2024) 133–150.

[16] Xiaogang Zhang, Qingbao Luo, Hongda Zhan, Fatih Evrendilek , Ruzhu Yang, Wu Zeng, Yaohuang Li, Shuyu Dong, Wenxiao Huang, Jingyong Liu*. Pyrolytic energy performance and byproducts of Ganoderma lucidum: Their multi-objective optimization. Journal of undefinedytical and Applied Pyrolysis 176 (2023) 106225.


[17] Xiaojie Tang, Xi Chen, Yao He*, Fatih Evrendilek, Zhiyun Chen, Jingyong Liu*. Co-pyrolytic performances, mechanisms, gases, oils, and chars of textile dyeing sludge and waste shared bike tires under varying conditions, Chemical Engineering Journal 428(2022)131053.

[18] Ding Ziyi, Chen Zihong, Jingyong Liu*, Evrendilek Fatih, He Yao, Xie Wuming. Co-combustion, life-cycle circularity, and artificial intelligence-based multi-objective optimization of two plastics and textile dyeing sludge. Journal of Hazardous Materials 426(2022)128069.

[19] Jiawei FuJingyong Liu*Weijie XuZhibin ChenFatih EvrendilekShuiyu Sun. Torrefaction, temperature, and heating rate dependencies of pyrolysis of coffee grounds: its performances, bio-oils, and emissions.  Bioresource Technology 345(2022)126346.

[20] Zhiyun Chen, Jingyong Liu*, Huashan Chen, Ziyi Ding, Xiaojie Tang, Fatih Evrendilek. Oxy-fuel and air atmosphere combustions of Chinese medicine residues: Performances, mechanisms, flue gas emission, and ash properties. Renewable Energy 182 (2022) 102-118.

[21] Huihuang Zou, Shengzheng Huang, Mingzhong Ren, Jingyong Liu*, Fatih Evrendilek, Wuming Xie, Gang Zhang. Efficiency, by-product valorization, and pollution control of co-pyrolysis of textile dyeing sludge and waste solid adsorbents: Their atmosphere, temperature, and blend ratio dependencies, Science of the Total Environment, 819(2022)152923 

[22] Jinwen Hu, Yueyao Song, Jingyong Liu*, Fatih Evrendilek, Gang Zhang, Mingzhong Ren, Wuming Xie, Shuiyu Sun. Torrefaction-assisted oxy-fuel co-combustion of textile dyeing sludge and bamboo residues toward enhancing emission-to-ash desulfurization in full waste circularity. Fuel. 318(2022). 123603

[23] Xieyuan Wu, Jingyong Liu*, Zebin Wei, Zihong Chen, Fatih Evrendilek, Wenxiao Huang. Oxy-fuel co-combustion dynamics of phytoremediation biomass and textile dyeing sludge: Gas-to-ash pollution abatement. Science of the Total Environment2022, 825,153656.

[24] Hongyi Huang, Jingyong Liu*, Fatih Evrendilek, Gang Zhang, Shuiyu Sun, Yao He. Bottom slag-to-flue gas controls on S and Cl from co-combustion of textile dyeing sludge and waste biochar: Their interactions with temperature, atmosphere, and blend ratio. Journal of Hazardous Materials,435(2022)129007.

[25] Hui Liu, Jingyong Liu*, Hongyi Huang, Yixing Wen, Fatih Evrendilek, Mingzhong Ren, Yao He. Technical and environmental feasibility of gas-solid decontamination by oxygen-enriched co-combustion of durian shell and textile dyeing sludge. Journal of Cleaner Production,360(2022)131967.

[26] Hongyi Huang, Jingyong Liu*, Hui Liu, Fatih Evrendilek, Gang Zhang, Yao He. Turning the co-combustion synergy of textile dyeing sludge and waste biochar into emission-to-bottom slag pollution controls toward a circular economy. Renewable Energy 194 (2022) 760-777

[27] Gang Zhang , Qiuyuan Feng , Jinwen Hu , Guang Sun, Fatih Evrendilek, Hui Liu, Jingyong Liu*. Performance and mechanism of bamboo residues pyrolysis: Gas emissions, by-products, and reaction kinetics. Science of the Total Environment 838 (2022) 156560.

[28] Weijie Xu, Jingyong Liu*, Ziyi Ding, Jiawei Fu, Fatih Evrendilek, Wuming Xie, Yao He. Dynamic pyrolytic reaction mechanisms, pathways, and products of medical masks and infusion tubes. Science of the Total Environment 842 (2022) 156710.

[29] Xieyuan WuZhiliang ChenJingyong Liu*Zebin WeiZihong ChenFatih EvrendilekShuiyu SunZhibin Chen. Co-combustion of Zn/Cd-hyperaccumulator and textile dyeing sludge: Heavy metal immobilizations, gas-to-ash behaviors, and their temperature and atmosphere dependencies .Chemical Engineering Journal 397 (2022) 138633.

[30] Zihong Chen,Jingyong Liu*, Xieyuan Wu, Weizhen Liu, Gang Zhang, Fatih Evrendilek, Guang Sun. Gas-to-ash detoxification feasibility and pathways by co-combustion of spent pot lining and food waste shells. Journal of Cleaner Production 2022(379)134626

[31] Jingyong Liu*, Zhuo ZX., Xie WM., Kuo JH., Lu XW., Buyukada M., Evrendilek F.. Interaction effects of chlorine and phosphorus on thermochemical behaviors of heavy metals during incineration of sulfur-rich textile dyeing sludge. Chemical Engineering Journal, 2018,351:897-911.

[32] Jingyong Liu*, Zeng JJ., Sun SY.*, Huang SS., Kuo JH, Chen NW. Combined effects of FeCl3 and CaO conditioning on SO2, HCl and heavy metals emissions during the DDSS incineration[J]. Chemical Engineering Journal, 2016 ,299: 449-458.

[33] Xieyuan Wu, Zebin Wei, Jingyong Liu*, Zihong Chen, Fatih Evrendilek, Wenxiao Huang. Oxy-fuel and air combustion performances and gas-to-ash products of aboveground and below ground biomass of Sedum alfredii Hance, Chemical Engineering Journal,422(2021)130312

[34] Hui Liu, Junhui Zhang, Jingyong Liu* Laiguo Chen, Hongyi Huang, Fatih Evrendilek. Co-pyrolytic mechanisms and products of textile dyeing sludge and durian shell in changing operational conditionsChemical Engineering Journal 420(2021)129711.

[35] Jianli Huang, Xieyuan Wu, Jingyong Liu*, Kenlin Chang, Fatih Evrendilek, Guanjie Liang. Flue gas-to-ash desulfurization of combustion of textile dyeing sludge: Its dependency on temperature, lignocellulosic residue, and CaO. Chemical Engineering Journal. Chemical EngineeringJournal417(2021)127906.

[36] Jiacong Chen, Junhui Zhang, Jingyong Liu*, Yao He, Fatih Evrendilek, Musa Buyukada, Wuming Xie, Shuiyu Sun. Co-pyrolytic mechanisms, kinetics, emissions and products of biomass and sewage sludge in N2, CO2 and mixed atmospheres. Chemical Engineering Journal 397 (2020) 125372.

[37] Jingyong Liu* Limao HuangZou HuihuangWuming Xie, Deniz Eren Evrendilek, Guangqian Luo, Yoshihiko Ninomiya. Do FeCl3 and FeCl3/CaO conditioners change pyrolysis and incineration performances, emissions, and elemental fates of textile dyeing sludge? Journal of Hazardous Materials. 4132021125334.

[38] Yueyao Song, Jinwen Hu, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada. CO2-assisted co-pyrolysis of textile dyeing sludge and hyperaccumulator biomass: dynamic and comparative analyses of evolved gases, bio-oils, biochars, and reaction mechanisms. Journal of Hazardous Materials 400 (2020) 123190.

[39] Junhui Zhang, Huihuang Zou, Jingyong Liu*, Fatih Evrendilek, Wuming Xie, Yao He, Musa Buyukada. Comparative (co-)pyrolytic performances and by-products of textile dyeing sludge and cattle manure: Deeper insights from Py-GC/MS, TG-FTIR, 2D-COS and PCA analyses. Journal of Hazardous Materials 401 (2021) 123276.

[40] Junhui Zhang, Jiacong Chen, Jingyong Liu*, Wuming Xie, Fatih Evrendilek, Weixin Li. Coupled mechanisms of reaction kinetics, gas emissions, and ash mineral transformations during combustion of AlCl3-conditioned textile dyeing sludge. Journal of Hazardous Materials 403(2021)123968.

[41] Jinwen Hu, Yueyao Song, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada, Youping Yan. Synergistic effects, gaseous products, and evolutions of NOx precursors during (co-)pyrolysis of textile dyeing sludge and bamboo residues. Journal of Hazardous Materials 401 (2021) 123331.

[42] Ziyi Ding, Huashan Chen, Jingyong Liu*, Haiming Cai, Fatih Evrendilek, Musa Buyukada.Pyrolysis dynamics of two medical plastic wastes: drivers, behaviors, evolved gases, reaction mechanisms, and pathways. Journal of Hazardous Materials 402 (2021) 123472.

[43] Xiaojie Tang, Zihong Chen, Jingyong Liu*, Zhiyun Chen, Wuming Xie, Fatih Evrendilek, Musa Buyukada. Dynamic pyrolysis behaviors, products and mechanisms of waste rubber and polyurethane bicycle tires Journal of Hazardous Materials 402 (2021) 123516.

[44] Shaoting Wen, Huihuang Zou, Jingyong Liu*, Deniz Eren Evrendilek, Youping Yan, Guanjie Liang. Multi-response optimization toward efficient and clean (co-)combustions of textile dyeing sludge and second-generation feedstock. Journal of Hazardous Materials.4082021124824.

[45] Zihong Chen, Jingyong Liu*, Laiguo Chen, Fatih Evrendilek, Wuming Xie, Xieyuan Wu, Jinwen Hu, Weixin Li. Emission-to-ash detoxification mechanisms of co-combustion of spent pot lining and pulverized coal. Journal of Hazardous Materials. 418(2021)126380.

[46] Candie Xie, Jingyong Liu*, Xiaochun Zhang, Wuming Xie, Jian Sun, Kenlin Chang, Jiahong Kuo, Wenhao Xie, Chao Liu, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. Co-combustion thermal conversion characteristics of textile dyeing sludge and pomelo peel using TGA and artificial neural networks. Applied Energy 212 (2018) 786–795.

[47] Junhui Zhang, Guang Sun, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada. Co-combustion of textile dyeing sludge with cattle manure:Assessment of thermal behavior, gaseous products, and ash Characteristics. Journal of Cleaner Production 253 (2020) 119950.

[48] Yueyao Song, Jinwen Hu, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada. Catalytic effects of CaO, Al2O3, Fe2O3, and red mud on Pteris vittata combustion: Emission, kinetic and ash conversion patterns. Journal of Cleaner Production 2522020119646.

[49] Yueyao Song, Jingyong Liu*, Fatih Evrendilek, Jiahong Kuo, Musa Buyukada. Combustion behaviors of Pteris vittata using thermogravimetric, kinetic, emission and optimization analyses. Journal of Cleaner Production 237 (2019) 117772.

[50] Jinwen Hu, Youping Yan, Yueyao Song, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada. Catalytic combustions of two bamboo residues with sludge ash, CaO, and Fe2O3: bioenergy, emission and ash deposition improvements. Journal of Cleaner Production 270 (2020) 122418

[51] Jinwen Hu, Youping Yan, Fatih Evrendilek, Musa Buyukada, Jingyong Liu*. Combustion behaviors of three bamboo residues: Gas emission, kinetic, reaction mechanism and optimization patterns. Journal of Cleaner Production 235 (2019) 549-561.

[52] Jianli Huang, Jingyong Liu*, Kenlin Chang, Musa Buyukada, Fatih Evrendilek. (Co-)pyrolytic performances and by-products of textile dyeing sludge and spent mushroom substrate. Journal of Cleaner Production 261 (2020) 121195.

[53] Guang Sun, Gang Zhang, Jingyong Liu*, Wuming Xie, Fatih Evrendilek, Musa Buyukada. Co-combustion performances, ashes, gases and simulations of spent potlining and textile dyeing sludge . Journal of Cleaner Production 224 (2019) 384-395.

[54] Haiming Cai, Jingyong Liu*, Jiahong Kuo, Musa Buyukada, Fatih Evrendilek. Thermal characteristics, kinetics, gas emissions and thermodynamic simulations of (co-)combustions of textile dyeing sludge and waste tea. Journal of Cleaner Production 239 (2019) 118113.

[55] Haiming Cai, Jingyong Liu*, Wuming Xie, Jiahong Kuo, Musa Buyukada, Fatih Evrendilek. Pyrolytic kinetics, reaction mechanisms and products of waste tea via TG-FTIR and Py-GC/MS. Energy Conversion and Management, 1842019436-447.

[56] Junhui Zhang, Jingyong Liu*, Fatih Evrendilek, Xiaochun Zhang, Musa Buyukada.TG-FTIR and Py-GC/MS analyses of pyrolysis behaviors and products of cattle manure in CO2 and N2 atmospheresKinetic, thermodynamic and machine-learning models. Energy Conversion and Management2019195346-359.

[57] Hongyi Huang, Jingyong Liu*, Hui Liu, Fatih Evrendilek, Musa Buyukada. Pyrolysis of water hyacinth biomass parts: bioenergy, gas emissions, and by-products using TG-FTIR and Py-GC/MS analyses. Energy Conversion and Management 207 (2020) 112552.

[58] Huihuang Zou, Junhui Zhang, Jingyong Liu*, Musa Buyukada, Fatih Evrendilek, Guanjie Liang. Pyrolytic behaviors, kinetics, decomposition mechanisms, product distribution and joint optimization of Lentinus edodes stipe. Energy Conversion and Management 2132020112858.

[59] Huihuang Zou, Weixin Li, Jingyong Liu*, Musa Buyukada, Fatih Evrendilek. Catalytic combustion performances, kinetics, reaction mechanisms and gas emissions of Lentinus edodes. Bioresour Technol. 300 (2020) 122630.

[60] Jinwen Hu, Yueyao Song, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada, Youping Yan, Lei Li. Combustions of torrefaction-pretreated bamboo forest residues: physicochemical properties, evolved gases, and kinetic mechanisms. Bioresour Technol.304 (2020) 122960.

[61] Jingyong Liu*, Limao Huang, Wuming Xie, Jiahong Kuo, Musa Buyukada, Fatih Evrendilek. Characterizing and optimizing (co-)pyrolysis as a function of different feedstocks, atmospheres, blend ratios and heating rates. Bioresource Technology 277 (2019) 104–116.

[62] Jianli Huang, Jingyong Liu*, Jiahong Kuo, Wuming Xie, Xiaochun Zhang, Kenlin Chang, Musa Buyukada, Fatih Evrendilek. Kinetics, thermodynamics, gas evolution and empirical optimization of (co-)combustion performances of spent mushroom substrate and textile dyeing sludge. Bioresource Technology 280 (2019) 313–324.

[63] Huihuang Zou, Fatih Evrendilek, Jingyong Liu*, Musa Buyukada. Combustion behaviors of pileus and stipe parts of Lentinus edodes using thermogravimetric-mass spectrometry and Fourier transform infrared spectroscopy analyses: Thermal conversion, kinetic, thermodynamic, gas emission and optimization analyses. Bioresource Technology, 2019,288,121481.

[64] Limao Huang, Candie Xie, Jingyong Liu*, Xiaochun Zhang, KenLin Chang, Jiahong Kuo, Jian Sun, Wuming Xie, Li Zheng, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. Influence of catalysts on co-combustion of sewage sludge and water hyacinth blends as determined by TG-MS analysis. Bioresource Technology. 2472018217-225.

[65] Jiacong Chen, Candie Xie, Jingyong Liu*, Yao He, Wuming Xie, Xiaochun Zhang, Kenlin Chang, Jiahong Kuo, Jian Sun, Li Zheng, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. Co-combustion of sewage sludge and coffee grounds under increased O2/CO2 atmospheres: thermodynamic characteristics, kinetics and artificial neural network modeling. Bioresource Technology.2472018230-238.

[66] Wenhao Xie, Shaoting Wen, Jingyong Liu*, Wuming Xie, Jiahong Kuo, Xingwen Lu, Shuiyu Sun, Kenlin Chang, Musa Buyukada, Fatih Evrendilek. Comparative thermogravimetric analyses of co-combustion of textile dyeing sludge and sugarcane bagasse in carbon dioxide/oxygen and nitrogen/oxygen atmospheres: thermal conversion characteristics, kinetics, and thermodynamics. Bioresource Technology 255 (2018) 88–95.

[67] Jianli Huang, Jingyong Liu*, Jiacong Chen, Wuming Xie, Jiahong Kuo, Xingwen Lu, Kenlin Chang, Shaoting Wen, Guang Sun, Haiming Cai, Musa Buyukada, Fatih Evrendilek. Combustion behaviors of spent mushroom substrate using TG-MS and TG-FTIR: Thermal conversion, kinetic, thermodynamic and emission analyses. Bioresource Technology. 266 (2018) 389–397.

[68] Haiming Cai, Huihuang Zou, Jingyong Liu*, Wuming Xie, Jiahong Kuo, Musa Buyukada, Fatih Evrendilek. Thermal degradations and processes of waste tea and tea leaves via TG-FTIR: combustion performances, kinetics, thermodynamics, products and optimization. Bioresource Technology2018268715-725.

[69] Jiacong Chen, Jingyong Liu*, Yao He, Limao Huang, Shuiyu Sun, Jian Sun, KenLin Chang, Jiahong Kuo, Shaosong Huang, Xunan Ning. Investigation of co-combustion characteristics of sewage sludge and coffee grounds mixtures using thermogravimetric analysis coupled to artificial neural networks modeling. Bioresource Technology, 2017, 225 (2017) 234–245.

[70] Limao Huang, Jingyong Liu*, Yao He, Shuiyu Sun, Jiacong Chen, Jian Sun, KenLin Chang, Jiahong Kuo, Xun’an Ning.Thermodynamics and kinetics parameters of co-combustion between sewage sludge and water hyacinth in CO2/O2 atmosphere as biomass to solid biofuel. Bioresource Technology,2016, 2016,218:631-642.

[71] Chen zhiyun, Huashan Chen, Xieyuan Wu, Junhui Zhang, Deniz Eren Evrendilek, Jingyong Liu*, Guanjie Liang, Weixin Li. Temperature- and heating rate-dependent pyrolysis mechanisms and emissions of Chinese medicine residues and numerical reconstruction and optimization of their non-linear dynamics. Renewable Energy. 164(2021)1408-1423.

[72] Yueyao Song, Jinwen Hu, Fatih Evrendilek, Musa Buyukada, Guanjie Liang, Wenxiao Huang, Jingyong Liu*. Reaction mechanisms and product patterns of Pteris vittate pyrolysis for cleaner energy. Renewable Energy. 1672021600-612.

[73] Huihuang Zou#, Chao Liu#, Fatih Evrendilek, Yao He, Jingyong Liu*. Evaluation of reaction mechanisms and emissions of oily sludge and coal co-combustions in O2/CO2 and O2/N2 atmospheres. Renewable Energy,171(2021):1327-1343.

[74] Guang Sun, Gangzhang, Jingyong Liu*, Deniz Eren Evrendilek, Musa Buyukada. Thermal behaviors, combustion mechanisms, evolved gasses, and ash analysis of spent potlining for a hazardous waste management. Journal of Environmental Sciences. 1072021124-137.

[75] Shaoting Wen, Huihuang Zou, Hui Liu, Jianli Huang, Deniz Eren Evrendilek, Youping Yan, Weixin Li, Jingyong Liu* Combustion behaviors of complex incense stick residues: Multivariate Gaussian process-based optimization of thermal, kinetic, thermodynamic, emission, and ash responses. Fuel 293(2021)120439.

[76] Xie Candie, Jingyong Liu*, Jialin Liang , Wuming Xie, Fatih Evrendilek, Weixin Li. Optimizing environmental pollution controls in response to textile dyeing sludge, incineration temperature, CaO conditioner, and ash minerals. Science of the Total Environment 785 (2021) 147219.

[77] Hongyi Huang, Jingyong Liu*, Laiguo Chen , Fatih Evrendilek , Hui Liu , Zhibin Chen .Multiple drivers, interaction effects, and trade-offs of efficient and cleaner combustion of torrefied water hyacinth. Science of the Total Environment(revision). Science of the Total Environment 786 (2021) 147278.

[78] Haiming Cai, Jingyong Liu*, Jiahong Kuo, Wuming Xie, Fatih Evrendilek, Gang Zhang Ashto-emission pollution controls on co-combustion of textile dyeing sludge and waste tea. Science of the Total Environment 794 (2021) 148667.

[79] Ziyi Ding, Jingyong Liu*, Huashan Chen, Shengzheng Huang, Fatih Evrendilek, Yao He, Li Zheng. Co-pyrolysis performances, synergistic mechanisms, and products of textile dyeing sludge and medical plastic wastes. Science of the Total Environment 799 (2021) 149397.

[80] Gang Zhang, Guang Sun, Zihong Chen, Fatih Evrendilek, Jingyong Liu*. Water-soluble fluorine detoxification mechanisms of spent potlining incineration in response to calcium compounds. Environmental Pollution 266(2020)115420 .

[81] Gang Zhang, Guang Sun, Jingyong Liu*, Fatih Evrendilek, Musa Buyukada, Wuming Xie. Thermal behaviors of fluorine during (co-)incinerations of spent potlining and red mud: Transformation, retention, leaching and thermodynamic modeling analyses. Chemosphere 249 (2020) 126204.

[82] Hongyi Huang, Jingyong Liu*, Hui Liu, Jinwen Hu, Fatih Evrendilek. Dynamic insights into combustion drivers and responses of water hyacinth: evolved gas and ash analyses. Journal of Cleaner Production 276 (2020) 124156.

[83] Hui Liu, Jingyong Liu*, Hongyi Huang, Fatih Evrendilek, Shaoting Wen, Weixin Li. Optimizing bioenergy and by-product outputs from durian shell pyrolysis. Renewable Energy 164 (2021) 407-418.

[84] Chao Liu, Jingyong Liu*, Fatih Evrendilek, Wuming Xie, Jiahong Kuo, Musa Buyukada. Bioenergy and emission characterizations of catalytic combustion and pyrolysis of litchi peels via TG-FTIR-MS and Py-GC/MS. Renewable Energy 148 (2020) 1074-1093.

[85] Shaoting Wen, Musa Buyukada, Fatih Evrendilek, Jingyong Liu*. Uncertainty and sensitivity analyses of co-combustion/pyrolysis of textile dyeing sludge and incense sticks: Regression and machine-learning models . Renewable Energy 151 (2020) 463-474.

[86] Hui Liu, Jingyong Liu*, Hongyi Huang, Fatih Evrendilek, Yao He, Musa Buyukada. Combustion parameters, evolved gases, reaction mechanisms, and ash mineral behaviors of durian shells: A comprehensive characterization and joint-optimization. Bioresource Technology 314(2020)123689 .

[87] Guang Sun, Gang Zhang, Jingyong Liu*, Wuming Xie, Jiahong Kuo, Xingwen Lu, Musa Buyukada, Fatih Evrendilek, Shuiyu Sun. Thermogravimetric and mass-spectrometric analyses of combustion of spent potlining under N2/O2 and CO2/O2 atmospheres. Waste Management 87 (2019) 237–249 (JCR, SCI=2区,IF2018=5.431)

[88] Candie Xie, Jingyong Liu*, Musa Buyukada, Fatih Evrendilek, Ukrit Samaksaman, Jiahong Kuo, Omer Ozyurt. Parametric assessment of stochastic variability in co-combustion of textile dyeing sludge and shaddock peel.Waste Management 96 (2019) 128–135.

[89] Jiacong Chen, Yao He,Jingyong Liu*, Chao Liu, Wuming Xie, Jiahong Kuo, Xiaochun Zhang, Shoupeng Li, Jialin Liang, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. The mixture of sewage sludge and biomass waste as solid biofuels: process characteristic and environmental implication. Renewable Energy 139(2019)707-717.

[90] Shaoting Wen, Youping Yan, Jingyong Liu*, Musa Buyukada, Fatih Evrendilek. Pyrolysis performance, kinetic, thermodynamic, product and joint optimization analyses of incense sticks in N2 and CO2 atmospheres. Renewable Energy 141 (2019) 814-827 .

[91] Junhui Zhang,Jingyong Liu*, Fatih Evrendilek, Wuming Xie, Jiahong Kuo, Xiaochun Zhang, Musa Buyukada, thermodynamics, gas evolution and empirical optimization of cattle manure combustion in air and oxy-fuel atmospheres. Applied Thermal Engineering 149(2019)119-131.

[92] Wenhao Xie, Jianli Huang,Jingyong Liu*, Yongjiu Zhao, Kenlin Chang, Jiahong Kuo, Yao He, Jian Sun, Li Zheng, Wuming Xie, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. Assessing thermal behaviors and kinetics of (co-)combustion of textile dyeing sludge and sugarcane bagasse. Applied Thermal Engineering 131 (2018) 874–883.

[93] Candie Xie, Jingyong Liu*, Wuming Xie, Jiahong Kuo, Xingwen Lu, Xiaochun Zhang, Yao He, Jian Sun, Kenlin Chang, Wenhao Xie, Chao Liu, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. Quantifying thermal decomposition regimes of textile dyeing sludge, pomelo peel, and their blends. Renewable Energy 122 (2018) 55-64.

[94Jingyong Liu*, Limao Huang, Guang Sun, Jiacong Chen, Shengwei Zhuang, Kenlin Chang, Wuming Xie, Jiahong Kuo, Yao He, Shuiyu Sun, Musa Buyukada, Fatih Evrendilek. (Co-)combustion of additives, water hyacinth and sewage sludge: Thermogravimetric, kinetic, gas and thermodynamic analyses. Waste Management 81 (2018) 211–219.

[95] Xiaochun Zhang, Haowen Tao, Zijian Zhang, Fei Tang, Guokai Su, Sen Chen,Jingyong Liu*. Temperature profile beneath an inclined ceiling induced by plume impingement of gas fuel jet flame. Fuel 223 (2018) 408–413.

[96] Zhongxu Zhuo,Jingyong Liu*, Shuiyu Sun, Jian Sun, Jiahong Kuo, Kenlin Chang, Jiewen Fu, Yujie Wang. Thermogravimetric characteristics of textile dyeing sludge,coal and their blend in N2/O2 and CO2/O2 atmospheres. Applied thermal engineering111(2017)87-94.

[97] Jingyong Liu*, Limao Huang, Musa Buyukada, Fatih Evrendilek. Response surface optimization, modeling and uncertainty analysis of mass loss response of co-combustion of sewage sludge and water hyacinth. Applied Thermal Engineering 2017, 328-335.

[98] Jingyong Liu*, Shu-jie Huang, Shui-yu Sun, Xun-an Ning, Rui-zhe He, Xiao-ming Li, Tao Chen, Guang-qian Luo, Wu-ming Xie, Yu-jie Wang, Zhong-xu Zhuo, Jie-wen Fu. Effects of sulfur on lead partitioning during sludge combustion based on experiments and thermodynamic calculations. Waste management 38(2015 ) 336-348.

[99] Jingyong Liu*, Jiewen Fu, Xun'an Ning, Shuiyu Sun, Yujie Wang, Wuming Xie, Shaosong Huang, Sheng Zhong. An experimental and thermodynamic equilibrium investigation of the Pb, Zn, Cr, Cu, Mn and Ni partitioning during sewage sludge incineration. Journal of Environmental Sciences 35(2015)43-54.

八、专利申请情况

[1] 刘敬勇,朱创海,钟胜,杨佐毅,林梓婷,陈斯琪. 一种用于混合污染土壤与修复剂的搅拌装置. 专利申请日:2023年08月10日,授权公告日:2024年01月19日,专利号:ZL202322152686.3.

[2] 刘敬勇,李磊,钟胜.一种含高磷污泥焚烧底渣回收磷装置.专利申请日:2023年03月20日,授权公告日:2023年07月25日,专利号:ZL 2023 2 0557241.0.

[3] 贾达杰,刘敬勇,柯国鹏,邱燕楠,谢武明,何峣,戴文灿。一种土壤超富集植物无害化处理装置;实用新型专利,申请时间2022.8.17,授权时间:20221217日,专利号:ZL202222164604.2.

[4] 林森,梁嘉瑜,刘敬勇,谢武明,徐伟杰,关浩宇. 一种污泥高效脱水耦合重金属固化的装置;实用新型专利,申请时间2021.8.23,授权时间:2022405日,专利号:ZL202121987145.7.

[5] 梁嘉瑜,林森,刘敬勇,谢武明,傅嘉伟,徐紫涧. 一种含重金属污泥干化及热解处理一体化装置;实用新型专利,申请时间2021.8.23,授权时间:2022405日,专利号:ZL202121987185.1.

[6] 黄升政,薛文涛,陈智斌,张刚,黄雯孝,刘敬勇. 一种高氯类飞灰高温烧结回收重金属及可溶盐的装置;实用新型专利,申请时间:202133日,授权专利号:ZL202120459952.5;授权时间2022121日;授权公告号:CN215586460U

[7] 陈智斌,刘敬勇,薛文涛,黄升政,张刚,李伟新。一种高硫类飞灰高温熔融固化处置及资源化系统;实用新型专利,申请时间:202133日,申请号:202120459290.1,授权时间:20220125日,专利号:ZL202120459290.1.

[8] 薛文涛,刘敬勇,徐伟杰,傅嘉伟,一种基于金属资源化回收处理电镀污泥的热熔炼系统;实用新型专利,专利号:ZL202120459910.1;申请日:202133日,授权时间:2022125日,授权公告号:CN215627220U

[9] 薛文涛,刘敬勇,黄雯孝。一种含CuNi低品位电镀污泥资源化回收装置。实用新型专利,申请时间:20201112日,授权专利号:ZL202022610844.1,授权时间2021108日,授权公告号:CN214360903U

[10] 刘敬勇,徐伟杰,傅嘉伟,李伟新,梁冠杰,黄雯孝,吴惠玲,何平,陈强. 一种利用铁尾矿废料和污泥混合制备烧结透水砖的方法. 发明专利,申请号:202010740390.1;申请日:2020728日。

[11] 刘敬勇,唐晓洁,陈志云.一种用于矿山污染的土壤电动修复装置。申请日2019523日;申请号:201920751472.9.

[12] 吴谢缘,陈子红,王玉洁,刘敬勇.一种污泥深度脱水及干化过程中VOC的净化装置. 申请号:201921454640.4;申请日:20190903日。授权时间:2020619日,授权号:ZL201921454640.4.

[13] 陈子红,吴谢缘,王玉洁,刘敬勇.一种搬迁场地砷镉复合钝化剂的制备装置. 申请日:20190903日;申请号: 201921454645.7;授权时间:2020825日,授权号:ZL201921454645.7.

[14] 刘敬勇,丁梓奕,陈志云.一种污泥和建筑渣土制砖用尾气净化系统. 申请日20191220日;申请号: 201922302735.0;授权时间:2020-12-08;授权号码:ZL201922302735.0.

[15] 刘敬勇,陈子红,吴谢缘。一种用于对餐厨垃圾与市政污泥的除臭一体化装置。实用新型专利,申请号:201922302465.3;申请日:20191220日,授权公告日:2020929日,授权号:ZL201922302465.3.

[16] 刘敬勇,吴谢缘,陈子红。一种变质食品中高浓度持久性有机污染物检测装置。申请号:201922302756.2;申请时间:20191220日;授权时间:2020929日,授权号码:ZL201922302756.2

[17] 刘敬勇,陈志云,丁梓奕。一种制砖厂余热烘干市政污泥及烟气净化系统。实用新型专利,申请号:201922302506.9;申请日:20191220日,授权时间2020929日,授权号码:ZL201922302506.9.

[18] 刘敬勇,黄宏艺。一种用于污泥烧结制陶粒生产的废气及污染物处理装置. 申请号:201921837724.0;申请日:2019408日。授权时间2019.12.24;授权号ZL201920018274

[19] 刘敬勇,刘辉。一种基于污泥烧结制陶粒的焚烧飞灰处理装置。申请号:201920018301.5;申请日:20190107日,授权日20191122日。专利号:ZL201920018301.5.

[20] 刘敬勇,胡晋文。一种制砖烧结过程中烟气净化系统。申请号:201821837151.2;申请日:20181108日。授权日:20190802日。授权号:CN209188405U

[21] 刘敬勇,黄宏艺。一种深度脱水污泥制砖过程中除尘及净化装置。申请号:201821837132.X;申请日:20181108日。授权日20190802日;授权号:CN209188382U

[22] 刘敬勇,刘辉。一种河涌固化淤泥制砖过程中恶臭及烟气净化装置。201821837157.X;申请日:20181108日。授权日:20190802日;授权号:CN209188406U

[23] 刘敬勇,邹惠煌;一种建筑挖土、粉煤灰及河涌固化淤泥混合制砖系统;申请号:201821837755.7;申请日:20181108号。授权日:20191210日;授权号:CN209755650U

[24] 刘敬勇,宋玥瑶;一种混合制砖低耗能干燥装置;申请号:201821837758.0;申请日:20181108日。授权日:20191224日;授权号:CN209832079U

[25] 刘敬勇,蔡海明。一种冶炼废渣中稀有元素浸出和回收装置。申请号:201821111229.2;申请日:2018713日。授权日:201942日;授权号:ZL201821111229.2

[26] 刘敬勇,张俊辉。一种新型污泥焚烧飞灰电弧熔融去除二噁英工艺系统。申请号:201821110084.4;申请日:2018713日。授权日:2019510日;授权号:ZL201821110084.4

[27] 刘敬勇,李晓瑜,梁凯云。一种印染污泥深度脱水-干化处理设备及工艺,发明专利,申请时间:2016314日,申请号201610144018.8. 公开号CN205662436U;公开日:20161026日;授权时间2018710日;授权号:Zl201610144018.8.

[28] 刘敬勇,李晓瑜,梁凯云。一种印染污泥深度脱水-干化处理设备,实用新型专利,申请时间:2016315日,申请号201620195192.0. 授权时间:20161026日;授权号:ZL201620195192.0.

[29] 刘敬勇,蔡海明。一种厨余垃圾与污水污泥的好氧堆肥系统。申请号:201821110306.2;申请日:2018713日。授权日:2019510日;授权号:ZL201821110306.2

[30] 刘敬勇,陈志云,唐晓洁.一种用于矿区的土壤复合污染检测装置. 申请日2019523日;申请号:201920750529.3;授权时间:2020-03-17;授权号码:ZL201920750529.3.转让。

[31] 刘敬勇,谢武明,郑莉,唐晓洁,陈志云,丁梓奕。一种用于净化污泥焚烧烟气的吸附材料及其制备方法。发明专利,申请号:201911142157.7;申请日:20191120日(转让)。

[32] 刘敬勇,宋玥瑶,胡晋文,邹惠煌。一种便携式污染土壤分层采样装置。申请号:201821837760.8;申请日:20181108日。授权日:20190806日;授权号:CN209214964U(转让)。

[33] 刘敬勇,邹惠煌,宋玥瑶,胡晋文。一种河涌水体便捷采样装置。申请号:201821837762.7;申请日:20181108日。授权日:20191025日;授权号:CN209542174U(转让)。

[34] 刘敬勇,胡晋文,邹惠煌,宋玥瑶。一种污染土壤含水量及温度检测装置。申请号:201821837160.1;申请日:20181108日。授权日:20190806日;授权号:CN209215373U(转让)。

[35] 刘敬勇、黄建立。一种工业VOC废气收集及催化燃烧处理装置。申请号:201821111245.1;申请日:2018713日。授权日:2019510日;授权号:ZL201821111245.1(转让)。

[36] 刘敬勇,张俊辉。一种印染污泥掺烧协同处理牛粪及尾气净化装置。申请号:201820311386.1;申请日:201836日。授权日:2019322日;授权号:ZL201820311386.1(转让)。

[37] 刘敬勇,蔡海明,郭家宏。一种废弃茶叶渣焚烧及尾气净化装置。申请号:201820307492.2;申请日:201836日。授权日:201942日;授权号:ZL201820307492.2(转让)。

[38] 刘敬勇,谢文浩。一种印染污泥掺烧生物质尾气净化装置。申请号:20180211063.5;申请日:20180206日。授权日:20181207日;授权号:ZL20180211063.5 (转让)。

[39] 刘敬勇,温少婷。一种寺庙香焚烧烟气净化装置。申请号:201820310510.2;申请日:20180306日。授权日:20181123日;授权号:ZL201820310510.2 (转让)。

[40] 刘敬勇,刘超。一种油泥协同掺烧处理荔枝壳及尾气净化装置。申请号:201820310541.8;申请日:20180306日。授权日:20181123日;授权号:ZL201820310541.8(转让)。

[41] 刘敬勇,谢灿垤。一种印染污泥掺烧生物质脱除重金属装置。申请号:201820211049.5;申请日:20180206日。授权日:2018921日;授权号:ZL201820211049.5(转让)。

[42] 刘敬勇,蔡海明,郭家宏。一种垃圾掺烧协同处理废弃茶叶渣装置。申请号:201820307479.7;申请日:20180306日。授权日:20181123日;授权号:ZL201820307479.7(转让)。

[43] 刘敬勇,孙光。一种蘑菇渣焚烧处理装置。申请号:201820105578.7;申请日:2018122日。授权日:2018904日;授权号:ZL201820105578.7(转让)。

[44] 刘敬勇,孙光。一种废旧阴极碳焚烧处理装置。申请号:201820105579.1;申请日:20180122日。授权日:2018904日;授权号:ZL 201820105579.1. (转让)

[45] 刘敬勇,张俊辉。一种牛粪焚烧处理回收能源的装置。申请号:201820307487.1;申请日:20180306日。授权日:20181123日;授权号:ZL201820307487.1(转让)。

[46] 刘敬勇,孙水裕,钟胜,谢武明,戴文灿,宋卫锋,黄绍松。一种污泥焚烧飞灰中重金属Pb的脱除装置及其脱除方法。发明专利。申请日:2011.02.23,申请号:CN201110043402,公开日:2011.09.14,公开号:CN102183026A

[47] 满小媛,宁寻安,廖希凯,林朝萍,张耿崚,刘敬勇,张亚平,孙健,王玉洁,巫俊辑。一种废旧除尘布袋制备活性炭的方法,专利号:2015101058733 ;申请时间:2015.03.11,申请号:CN104760956A,申请公布日:2015.07.08

[48] 孙水裕,李神勇,刘敬勇,钟胜,宋卫锋,戴文灿,谢武明,杨帆。一种废旧印刷线路板两步脱溴的方法。发明专利。申请日: 2014.02.27,申请号: CN201410068561;公开日: 2014.06.11,公开号: CN103846272A

[49] 孙水裕,李神勇,徐东军,刘敬勇,钟胜,宋卫锋,戴文灿,谢武明,杨帆。一种废旧印刷线路板热解脱溴装置。实用新型。申请日: 2014.02.25,申请号: CN201420080674;公开日: 2014.06.11,公开号: CN203678829U

[50] 宁寻安,阳重阳,王玉洁,梁昕,王靖宇,陈国鑫,林美卿,李锐敬,陈泓,刘敬勇,杨佐毅。一株鲍曼不动杆菌及其筛选方法和在降解偶氮染料刚果红方面的应用。发明专利。申请日: 2013.10.22,申请号: CN201310498166;公开日: 2014.04.30,公开号: CN103756925A

[51] 宁寻安,廖希凯,陈海斌,周云,吴坚荣,刘敬勇,杨佐毅,王玉洁,李磊。一种废旧除尘布袋焚烧灰渣制造水泥混合材的方法。发明专利。申请日: 2013.03.20,申请号: CN201310088484;公开日: 2014.06.11,公开号: CN103846272A

[52] 宁寻安,罗海健,冯银芳,刘敬勇,杨佐毅,李磊,梁昕,林美卿,廖希凯。一种加入制革污泥焚烧底渣提高污泥脱水性能的方法。发明专利。申请日: 2012.10.24,申请号: CN201210409314;公开日: 2013.02.13,公开号: CN102923928A

[53] 孙水裕,杜青平,黄绍松,林伟雄,许燕滨,宋卫锋,戴文灿,刘敬勇。一种使用生物挂膜载体处理硫化铅锌矿尾矿库废水的方法。发明专利。申请日: 2012.05.24,申请号: CN201210163067;公开日: 2012.11.21,公开号: CN102786146A

[54] 孙水裕,郑莉,占星星,许燕滨,宋卫锋,戴文灿,刘敬勇,谢武明。一种联合超声波和缺氧/好氧消化的污泥处理装置。实用新型。申请日: 2011.12.14,申请号: CN201120524916;公开日: 2012.10.31,公开号: CN202508960U

[55] 孙水裕,杨帆,钟胜,宋卫锋,戴文灿,刘敬勇,谢武明,李神勇。废旧电路板热解油重馏分与丁苯橡胶共同改性沥青的方法。发明专利,申请日: 2011.09.29,申请号: CN201110297600;公开日: 2012.01.11,公开号: CN102311650A;授权号:ZL 201110297600.5.

[56] 孙水裕,杨帆,钟胜,宋卫锋,戴文灿,刘敬勇,谢武明,李神勇。一种使用废旧印刷电路板热解油重馏分改性沥青的方法。发明专利。申请日:2011.09.29,申请号¬:CN201110292102,公开日:2012.03.28,公开号:CN102391657A。授权日期:2013-6-12;授权号:ZL201110292102.1

[57] 宁寻安,王江辉,周云,刘敬勇,杨佐毅,李磊,英柱,梁秀娟。一种废旧除尘布袋中重金属的消解及测定方法。申请日:2011.05.30,申请号:CN201110142301,公开日:2012.01.11,公开号:CN102313706A

[58] 宁寻安,王江辉,周云,刘敬勇,杨佐毅,李磊,英柱,梁秀娟。一种废旧除尘布袋中重金属的消解及测定方法。申请日:2011.05.30,申请号:CN201110142301,公开日:2013.02.13,公开号¬CN102313706B。授权日期:2013-2-13;授权号:ZL201110142301.4

[59] 孙水裕,许燕滨,郑莉,宋卫锋,戴文灿,刘敬勇,谢武明。一种利用超声波预处理改善污泥缺氧/好氧消化性能的方法。发明专利。申请日:2010.11.23,申请号:CN201010562436,公开日:2011.05.25,公开号:CN102070286A。授权日2012-12-12授权号:ZL201010562435.1

[60] 孙水裕,许燕滨,郑莉,宋卫锋,戴文灿,刘敬勇,谢武明。一种利用超声波预处理改善污泥缺氧/好氧消化性能的方法。申请日:2010.11.23,申请号: CN201010562436公开日:2012.12.12,公开号:CN102070286B;授权号:ZL 20100562436.1.

[61] 钟胜,孙水裕,刘敬勇,宋卫锋,戴文灿。废旧电子线路板真空热解试验装置。发明专利。申请日: 2010.11.02,申请号: CN201010531348,公开日: 2011.03.30,公开号: CN101992203A。授权日期:2013-4-3,授权号ZL201010531348.5

[62] 钟胜,孙水裕,刘敬勇,宋卫锋,戴文灿。一种废旧电子线路板真空热解试验装置。实用新型专利。申请日: 2010.11.02,申请号: CN201020591179,公开日: 2011.06.08,公开号: CN201855831U。授权日期:2011-6-8,授权号: ZL201020591179.X

[63] 孙水裕,梁海峰,刘敬勇,钟胜,戴文灿,宋卫锋。用废线路板中回收的玻璃纤维制备聚丙烯复合材料的方法。发明专利。申请日: 2010.10.29,申请号: CN201010529818,公开日: 2011.04.06,公开号: CN102002185A。授权日期:2012-12-26;授权号:201010529818.4

[64] 孙水裕,梁海峰,刘敬勇,钟胜,戴文灿,宋卫锋。用废线路板中回收的玻璃纤维制备聚丙烯复合材料的方法。发明专利。申请日: 2010.10.29,申请号: CN201010529818,公开日: 2012.12.26,公开号: CN102002185B

[65] 孙水裕,许燕滨,郑莉,宋卫锋,戴文灿,刘敬勇,谢武明。一种超声波-缺氧/好氧消化装置。实用新型专利。申请日: 2010.10.22,申请号: CN201020575327,公开日: 2011.06.08,公开号: CN201857310U。授权日期:2011-6-8;授权号: ZL201020575327.9

[66] 宁寻安,李仕文,刘敬勇,杨佐毅,李磊。一种造纸污泥固化/稳定化处理方法。发明专利。申请日: 2010.07.02,申请号: CN201010216864,公开日: 2010.11.17,公开号: CN101885575A

[67] 孙水裕,龙来寿,钟胜,宋卫锋,戴文灿,许燕滨,谢武明,刘敬勇。一种废旧印刷电路板中各组分材料的分离及回收方法。发明专利。申请日: 2009.07.10,申请号: CN200910041043,公开日: 2009.12.30,公开号: CN101612628A

九、我的团队

欢迎有环境、化学类专业背景的学生报考本课题组(固废方向)的硕士研究生!同时本课题组长期招聘博士后,待遇优厚。

联系QQ:734194062,联系Email:www053991@126.com

通信地址:广州大学城外环西路100号环境科学与工程学院(工学三号馆)

办公地点: 广州市大学城广东工业大学工学三号馆214#


窗体底端

地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

电话:020-39322722    邮箱:yzb@gdut.edu.cn  粤ICP备05008833号