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张庆建个人简历
 
发布人:华文健     时间:2023-03-24
 

      男人穿着衬衫描述已自动生成

姓名

张庆建

单位

环境与市政工程学院

职称

教授

邮箱

zqjianli@163.com

学术兼职

中国环境科学学会重金属分委会委员;中国管理学会环境分会委员;中国有色金属学会环境保护分会委员;中国再生资源产业技术创新联盟专家委员会委员;全国塑料标准化技术委员会再生塑料工作组委员;全国化学标准化技术委员会无机化工分技术委员会废酸处理处置工作组委员;中国再生资源回收利用协会专家库专家;全国进口固体废物属性鉴定实验室联盟专家;海关总署固废鉴别专家库成员;《中国无机分析化学》、《冶金分析》青年编委;中国合格评定国家认可委员会17020管理体系评审专家。

个人简介

教育背景

博士:2006.09~2009.06 南京大学,环境学院环境工程系

硕士:2004.09~2006.06 南京大学,环境学院环境工程系

本科:2000.09~2004.06 青岛大学,理工学院环境科学系

工作经历

2009.07.21~2018.04.16   山东出入境检验检疫局检验检疫技术中心

2018.04.16~2019.06.06   青岛海关检验检疫技术中心

2019.06.06~2020.11.16   青岛海关技术中心

2020.11.16~2021.03.16   黄岛海关综合技术服务中心

2021.03.16~2022.06.30   青岛海关技术中心

2022.07.05~ 青岛理工大学

研究方向

固体废物溯源、无害化处置与资源化利用;环境功能材料开发;水污控制与资源化;环境监测;新型污染物检测与健康风险评价

课程教学

固体废物污染控制与资源化(本科)

学术成果

科研项目

1)多模多谱耦合快速检测装备研发与应用(2022YFC3002402),2022.11-2025.10,国家重点研发计划,在研

2)双波长瞬态差分高信噪比Raman检测模块研制(2017YFF0108902),2017.01-2021.09,国家重点研发计划,已验收

3)典型矿产品欺诈风险监控技术口岸集成应用研究(2018YFF0215401),2018.07-2022.0,国家重点研发计划,已验收

4)重点进口商品固体废物属性鉴别关键技术及应用(2019HK008),2019.07-2021.06,海关总署科研计划,已验收

5)进口含碳物料固体废物属性鉴别及环境风险评价(2020HK248),2020.10-2022.07,海关总署科研计划,已验收

6)主要冶炼渣的分析表征及其在固体废物属性鉴别中的应用(2015IK193),2014.01-2016.12,国家质量监督检验检疫总局科研计划,已验收

7)进出境矿产品海运安全及质量保障技术研究(201310065),2013.01-2015.12,科技部公益性科研专项计划

8)入境固体废物属性鉴别体系研究(2013IK013),国家质量监督检验检疫总局科研计划,2013.02-2015.06,已验收

代表性论文

(1) Chengfeng Zhou, Junzhe Dong, Shoubin   Zhang, Qingjian Zhang et al. Classification of waste cotton from different   countries using the near-infrared technique. Textile Research Journal, 2023, 93 (1-2) : 133-139

(2) Qunwei Wang, Zhenxing Lin, Qinghua   Wu, Li Lin, Qingjian Zhang. Determination of total sulfur in coal by   ultraviolet fluorescence method based on the large capacity combustion   framework. Fuel Communications, 2022, (11): 100063

(3) Fei Xiao, Xiao-qiang Cao, Xian-jun   Lyu et al. Binary adsorption of Cu(II) and Ni(II) on Lai'yang bentonite:   Kinetics, equilibrium, competition quantitative and mechanisms investigation.   Environmental Progress & Sustainable Energy, 2020, 39(3): e13358

(4) Yirong Deng, Qingjian Zhang, Qingrui   Zhang et al. Arsenate removal from underground water by polystyrene-confined   hydrated ferric oxide (HFO) nanoparticles: effect of humic acid.   Environmental Science and Pollution Research, 2020, 27(7): 6861-6871

(5) Xuan Zhang, Xiao-qing Cao, Guang Li   et al. Preparation of Novel ALRCs/nZVI Composite and Its Removal of Cr(VI)   from Aqueous. International Journal of Environmental Research, 2020,   14(2):123-133

(6) Fei XiaoBingqi Yan, Xingyun Zou et al. Study on ionic liquid   modified montmorillonite and molecular dynamics simulation. Colloids and   Surfaces A: Physicochemical and Engineering Aspects, 2020, 587: 124311.

(7)  Zhihao LiChuandong MaJunxiang   WangXianjun LyuQingjian   Zhang et al. Investigation of nonylphenol ethoxylate on the surface   characteristics of low rank coal. Particulate Science And Technology, 2019,   38(8):1012-1018

(8)张庆建, 占发旺, 高瑞刚等. 富铁原料物相鉴别研究. 冶金分析, 2017, 37(11):   69-74

(9)张庆建, 岳春雷, 郭兵等. 微波消解-电感耦合等离子体发射光谱测定铜精矿中的银. 分析科学学报, 2017, 33(04): 582-584

(10)张庆建, 岳春雷, 孙瑞昌等. X射线荧光光谱法测定煤中砷磷氯. 冶金分析, 2015,   35(07): 84-88

(11)DING Shi-bing, ZHANG Qing-jian GUO   Bing et al. Identification of mill scale doped in iron ore by X-ray   diffraction method. Metallurgical Analysis, 2013, 33(6): 14-17

(12)MIN Guo-hua, ZHANG Qing-jian et al.   Determination of impurity elements of lead, zinc, cadmium, mercury, arsenic,   manganese, silver, copper and iron in lead ore, zinc ore and lead & zinc   ore by inductively coupled plasma atomic emission spectrometry. Metallurgical   analysis, 2014, 34(5): 51-55

(13)FEN Li-li, ZHANG Qing-jian et al.   Determination of zirconium, hafnium, magnesium, aluminium, silicon,   phosphorus, calcium, titanium, iron, barium contents in zirconium ore by   X-ray fluorescence spectrometry. Metallurgical analysis, 2014, 34(7): 51-55

(14) Dan Li, Feigao Xu, Zhenghua Liu,   Jiaqi Liu, Qingjian Zhang etl. The effect of adding PDMS-OH and silica   nanoparticles on sol-gel properties and effectiveness in stone protection.   Applied surface Science, 2013, 266: 368-374

(15) Feigao Xu, Jianggang Yu, Dan Li,   Ning Xiang, Qingjian Zhang et al. Solvent effects on structural properties of   SiO2 gel using n-octylamine as a catalyst. J Sol-Gel Sci Technol,   2014, 71: 204-210

(16)Feigao Xu, Dan Li, Qingjian Zhang et   al. Effects of addition of colloidal silica particles on TEOS-based stone   protection using n-octylamine as a catalyst. Progress in Organic Coatings,   2012, 75: 429-434

(17)张庆建,丁仕兵, 冯丽丽等. 氧化皮化学特性及X射线荧光光谱分析. 分析科学学报, 2012, 28(01): 75-78

(18)Chen, X.,  Lam, K. F.,    Zhang, Q., et al. Synthesis of highly selective magnetic mesoporous   adsorbent. Journal of Physical Chemistry C, 2009: 113(22), 9804-9813.

(19)Q.J. Zhang, B.C. Pan, W.M. Zhang, et   al. Arsenate removal from aqueous media by nanosized hydrated ferric oxide   (HFO)-loaded polymeric sorbents: effect of HFO loadings. Industrial &   Engineering Chemistry Research, 2008, 47: 3957-3962

(20)Q.J. Zhang, B.C. Pan, X.Q. Chen, et   al. Preparation of polymer-supported hydrated ferric oxide based on Donnan   membrane effect and its application for arsenic removal. Science in China   B-Chemistry, 2008, 51(4): 289-392

(21)B.C. Pan, Q.J. Zhang, W.M. Zhang et   al. Removal of aromatic sulfonates from aqueous media by aminated polymeric   sorbents: Concentration-dependent  selectivity and the application.   Microporous and Mesoporous Materials, 2008, 116(2): 63-69

(22)W.M. Zhang, Q.J. Zhang, B.C. Pan et   al. Modeling synergistic adsorption of phenol/aniline mixtures in the aqueous   phase onto porous polymer adsorbents. Journal of Colloid and Interface   Science, 2007, 306: 216-221

(23)K. Zheng, B.C. Pan, Q.J. Zhang, et   al. Enhanced  removal of  p-chloroaniline from aqueous solution by   a carboxylated polymeric sorbent. Journal of Hazardous Materials, 2007, 143462-468

(24)K. Zheng, B.C. Pan, Q.J. Zhang et al.   Enhanced removal of  p-nitro-aniline from water by a carboxylated   polymeric adsorbent. Separation and Purification Technology, 2007, 57:248-254

(25)W.M. Zhang, Z.W. Xu, B.C. Pan, Q.J.   Zhang et al. Adsorption enhancement of laterally interacting phenol/aniline   mixtures onto nonpolar adsorbents. Chemosphere, 2007, 66: 2044-2049

(26)W.M. Zhang, Z.W. Xu, B.C. Pan, Q.J.   Zhang et al. Cooperative effect of lateral acid–base interaction on   1-naphthol/1-naphthylamine binary adsorption onto nonpolar polymer   adsorbents. Separation and Purification Technology, 2007, 55, 141-146

(27)W.M. Zhang, C.H. Hong, B.C. Pan, Q.J.   Zhang et al. Sorption enhancement of 1-naphthol onto a hydrophilic   hyper-cross-linked polymer resin. Journal of Hazardous Materials, 2009, 163:   53-57

(28)W.M. Zhang, Z.W. Xu, B.C. Pan, L. Lv,   Q.J. Zhang et al. Assessment on the removal of dimethyl phthalate from   aqueous phase using a hydrophilic hyper-cross-linked polymer resin NDA-702.   Journal of Colloid and Interface Science, 2007, 311:382-390

(29)W.M. Zhang, C.H. Hong, B.C. Pan, Z.W.   Xu, Q.J. Zhang et al. Removal enhancement of 1-naphthol and 1-naphthylamine   in single and binary aqueous phase by acid–basic interactions with polymer   adsorbents. Journal of Hazardous Materials, 2008, 158: 293-299

(30)Z.W. Xu, W.M. Zhang, B.C. Pan, C.H.   Hong, L. Lv, Q.J. Zhang et al. Application of the Polanyi potential theory to   phthalates adsorption from aqueous solution with hyper-cross-linked polymer   resins. Journal of Colloid and Interface Science, 2008, 319, 392-397

(31)B.C. Pan, Q.R Zhang, W. Du, W.M.   Zhang, B.J. Pan, Q.J. Zhang et al. Selective heavy metals removal from waters   by amorphous zirconium phosphate- Behavior and mechanism. Water Research,   2007,41: 3103-3111

(32)B.C. Pan, B.J. Pan, X.Q. Chen, W.M.   Zhang, X. Zhang, Q.J. Zhang  et al. Preparation and preliminary   assessment of polymer-supported zirconium phosphate for selective lead   removal from contaminated water. Water Research, 2006, 40(15): 2938-2946

(33)W. Du, B.C. Pan, P.J. Jiang, Q.R.   Zhang, W.M. Zhang, B.J. Pan, Q.J Zhang et al. Selective sorption and   preconcentration of tartaric acid using a copper(II)-bound polymeric ligand   exchanger. Chemical Engineering Journal, 2008, 139, 63-68

(34)B.C. Pan, Q.R. Zhang, W.M. Zhang,   B.J. Pan, W. Du, L. Lv, Q.J. Zhang et al. Highly effective removal of heavy   metals by polymer-based zirconium phosphate : A case study of lead ion.   Journal of Colloid and Interface Science, 2007, 310:99-105

(35)W.M. Zhang, Z. W. Xu, B.C. Pan, C.H.   Hong, K. Jia, P. J. Jiang, Q. J. Zhang et al. Equilibrium and heat of   adsorption of diethyl phthalate on heterogeneous adsorbents. Journal of   Colloid and Interface Science, 2008, 325(1): 41-47

(36) Weiming Zhang; Changhong Hong;   Bingcai Pan; Qingjian Zhang; Peijuan Jiang; Kun Jia, et al. Sorption   enhancement of 1-naphthol onto a hydrophilic hyper-cross-linked polymer   resin. Journal of Hazardous Materials, 2009, 163(1): 53-57

(37)Weiming Zhang, Changhong Hong,   Bingcai Pan, Zhengwen Xu, Qingjian Zhang et al. A comparative study of the   adsorption properties of 1-naphthylamine by XAD-4 and NDA-150 polymer resins.   Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008,   331(3): 257-262

著作

1)固体废物属性鉴别及案例分析, 中国质检出版社, 2015, 主编

2)固体废物鉴别技术研究与进展, 中国石油大学出版社, 2016, 参编

3)进口固体废物变革及典型鉴别案例,中国环境出版社,2023,   主编

发明专利

1)一种铜矿石中铜含量的X射线荧光光谱分析方法ZL 201310066438.5

2)一种利用X射线荧光光谱分析高钛渣中元素的方法 ZL 201310097301.6  

3)一种液体石油及石油产品能力验证样品的制备装置.   ZL 201510014827.2

4)矿产品破碎缩分制样机. ZL   201711115753.7

5)一种活性锰氧化菌生物填料及降解压舱水中藻毒素的方法ZL   202210571660.X

6)一种医药中间体合成中副产氟硼酸钾精制方法及装置ZL   202210491036.9

标准

1)《矾土矿的鉴别 X射线衍射法》(SN/T 3975-2014

2)《实验室废弃化学品收集技术规范》(GB/T   31190-2014

3)《磷石膏的处理处置规范》(GB/T   32124-2015

4)《铝渣》(YS/T 1177-2017

5)《铝渣化学分析方法 1部分:氟含量的测定 离子选择电极法》(YS/T 1179.1-2017

6)《铝渣化学分析方法 2部分:金属铝含量的测定 气体容量法》(YS/T 1179.2-2017

7)《铝渣化学分析方法 3部分:碳、氮含量的测定 元素分析仪法》(YS/T 1179.3-2017

8)《铝渣化学分析方法 4部分:硅、镁、钙含量的测定 电感耦合等离子体发射光谱法》(YS/T 1179.4-2017

9)《含铁化工污泥处理处置方法》(GB/T   34687-2017

10)《铝渣物相分析 X射线衍射法》(YS/T 1178-2017

11)《含铁尘泥与铁矿鉴别通用方法》(SN/T   5039-2018

12)《进口冶金类固体废物属性鉴别通用方法》(SN/T   5061-2018

13)《无机化工品中汞的测定 原子荧光光谱法》(GB/T 36384-2018

14)《冶金用钢渣促进剂》(YB/T   4703-2018

15)《散装铁矿粉 适运水分限量的测定 流盘试验法》(GB/T 37829-2019

16)《锰矿石 铜、铅和锌含量的测定 火焰原子吸收光谱法》(GB/T   14949.6-2021

17)《锰矿石 钛含量的测定 二安替吡啉甲烷分光光度法》(GB/T 14949.5-2021

18)《锰矿石 化合水含量的测定 重量法》(GB/T 14949.12-2021

19)《镍矿、镍精矿及主要含镍物料鉴别方法》(SN/T   5413-2022

20)《锌冶炼用氧化锌富集物鉴别方法》(SN/T   5409-2022

21)《铅矿及主要含铅的矿渣鉴别方法 1部分:通则》(SN/T 5410.1-2022

22)《铁矿石灼烧减量的测定 吸湿水校正重量法》(GB/T 6730.83-2022

奖励与荣誉

12016年获山东省自然科学创新奖

22016年获青岛市第十届青年科技奖

32016年获青岛市科学技术奖三等奖

42016年获国家质检总局科技兴检奖三等奖

52017年获中国分析测试协会科学技术奖三等奖

62017年获青岛市西海岸新区拔尖人才称号

72017年获中华人民共和国山东检验检疫局科技进步奖一等奖

82018年获青岛市科学技术奖三等奖

92018年获青岛市拔尖人才称号

102019年获山东省有突出贡献中青年专家

112019年获广西科学技术奖三等奖

122020年获上海市科技进步二等奖

132020年获中国有色金属学会科技奖三等奖

142021年获海关总署科技成果评定一级成果

152021年获中国石油化工联合会科技奖三等奖

162022年获青岛市分析测试学会科技奖一等奖


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