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副教授
副教授

庞龙

时间:2021-09-28  浏览数:2021次   


一、个人情况

庞龙,男,198309月出生,河南省许昌市人,理学博士,副教授,佐治亚理工学院访问学者,中国环境科学学会生态环境修复专业委员会委员,河南省生态环境损害鉴定评估专家库专家,河南省危险废物鉴别专家库专家。

办公地点:郑州市高新区科学大道136号,郑州轻工业大学9001诚信金沙9001cc326房间

E-mail: lpang@zzuli.edu.cn                电话: 18838077351

二、教育背景

2010.09-2013.07  中国科学院生态环境研究中心,环境科学,博士

2007.09-2010.07  河南师范大学,环境工程,硕士

2003.09-2007.07  河南师范大学,环境工程,本科

三、研究方向

新污染物分析方法、环境转化过程、环境归趋与风险评价

、承担课程及教学成果

《环境监测》、《环境仪器分析》、《环境学导论》、《环境生态学》

、科研成果及奖励(项目、专利、奖励等)

纵向项目:

[1] 河南省高等学校重点科研项目,介孔硅/手性MOFs磁性微球构建及其手性污染物生物有效性评价研究,2024.01-2025.12,主持,在研。

[2] 河南省重点研发与推广专项,项目编号202102210025,陶瓷纳滤复合膜的制备与高纯过氧化氢净化关键技术研究,2021.01-2022.12,主持,结项。

[3] 国家自然科学基金项目,项目编号21707124,有机磷酸酯的气粒分配:评价方法及雾霾的影响研究,2018.01-2020.12,主持,结项。

[4] 河南省科技攻关项目,项目编号182102311109,大气雾霾对新型阻燃剂的气粒分配机制及人体暴露风险研究,2018.01-2020.12,主持。

[5] 国家水体污染控制与治理科技重大专项,项目编号2015ZX07210-002-003,清潩河流域水环境质量整体提升与功能恢复关键技术集成研究与综合示范课题,2015.01-2018.12,参加,结项。

[6] 环境化学与生态毒理学国家重点实验室开放基金项目,项目编号KF2013-13,郑州市区污水处理厂污泥中有机磷系阻燃剂的污染水平评估及其在污泥堆肥中的迁移和转化行为研究,2014.01-2015.12,主持,结项。

[7] 郑州市科技计划项目,项目编号141PPTGG412,功能化咪唑离子液体固相微萃取涂层制备及萃取有机磷系阻燃剂研究,2014.01-2015.12,主持,结项。

[8] 郑州轻工业学院博士科研基金项目,项目编号BSJJ-023,功能化咪唑离子液体固相微萃取涂层制备及萃取性能研究,2014.01-2016.12,主持,结项。

横向项目:

[1] 周口市生态环境局沙颍河、汾泉河和黑茨河一河一策一图应急处置方案项目,周口市生态环境局,主持,在研。

[2] 明胶废水处理过程中衍生的生化污泥危险特性鉴别项目,项目负责人,在研。

[3] 碱式氯化铝技改项目生产废渣危险特性鉴别项目,项目负责人,在研。

[4] 河南省“千名专家进百县帮万企”绿色发展服务活动项目(危险废物处理处置),河南省生态环境厅,主持,结项。

[5] 河南省2018-2020年挥发性有机物治理工作方案,河南省环境保护厅,主持,结项。

[6] 河南省造纸行业排污单位主要污染物排放总量确认技术方法研究,河南省环境保护厅,参与,结项。

[7] 总量控制行业目录研究,环境保护部环境规划院,参与,结项。

[8] 铝钛硼合金生产过程中产生的废渣危险特性鉴别项目,项目负责人,结项。

[9] 三效蒸发盐和废水处理污泥的危险特性鉴别项目,项目负责人,结项。

[10] 氧化铝厂生产过程中的脱有机物钒碱渣危险特性鉴别项目,项目负责人,结项。

[11] 四氟铝酸钾危险废物属性鉴别项目,项目负责人,结项。

[12] 新乡市获嘉县环境事件危险废物鉴别项目,项目负责人,结项。

[13] 濮阳市南乐县环境事件危险废物鉴别项目,项目负责人,结项。

[14] 新乡市辉县市环境事件危险废物鉴别项目,项目负责人,结项。

[15] 焦作市修武县环境事件危险废物鉴别项目,项目负责人,结项。

[16] 许昌市建安区环境事件危险废物鉴别项目,项目负责人,结项。

专利:

[1] 一种氮掺杂污泥堆肥可见光光催化材料的制备方法及其应用. 发明专利ZL 201911219326.2

[2] 一种纳米多孔碳陶瓷膜纳滤复合膜的制备方法. 发明专利ZL202110576940.5

[3] 一种金属有机框架-陶瓷膜纳滤复合膜的制备方法. 发明专利ZL 202011042327.7

[4] 一种便携式采样器及其制备方法与应用. 发明专利ZL 201611245915.4

[5] 一种复配型油田注水杀菌剂. 发明专利ZL201510568920.8

标准:

[1] 餐饮业油烟污染物排放标准. DB 41/ 16042018,主要起草

[2] 锅炉大气污染物排放标准. DB41/ 20892021,主要起草

[3] 河南省黄河流域水污染物排放标准. DB41/ 20872021,主要起草

[4] 洪河流域水污染物排放标准. DB41/ 12572016,主要起草

[5] 涧河流域水污染物排放标准. DB41/ 12582016,参加起草

[6] 水污染源自动监控基站运行维护技术规范. DB41/T 12522016,参加起草

获奖情况:

[1] 二氧化钛纳米材料及离子液体微富集技术分离检测典型环境污染物研究. 中国分析测试协会科学技术奖(CAIA奖),证书编号:20110305

[2] 竹炭和分散液液微萃取技术在环境分析中的应用. 中国分析测试协会科学技术奖(CAIA奖),证书编号:2008-2-R10

[3] 半湿润区农田面源氮素污染调控技术与应用示范,河南省教育厅科技成果二等奖、豫教〔20208372

六、发表论著(著作、发表文章等)

著作:

[1] 《危险化学品安全丛书—化学品环境安全》,化学工业出版社,2021.06,参编。

[2] 《造纸工业绿色发展理念与工程技术》,哈尔滨工业大学出版社,2017.08,主编。

论文:

[1] Pang, L*., Wu, M. K., Chai, Z. H., et al. Preparation and dye separation performance of ZIF-67/mesoporous silica ceramic nanofiltration membrane by liquid phase epitaxy (LPE) growth method. Sep. Purif. Technol. 2023, 322, 124339.

[2] Pang, L*., Huang, Z. L., Yang, H. Q., et al. A scalable field study using leaves as a novel passive air sampler to evaluate the potential source of organophosphate esters in street dust. Chemosphere 2023, 312, 137248.

[3] Pang, L*., Huang, Z. L., Yang, P. J., et al. Effects of biochar on the degradation of organophosphate esters in sewage sludge aerobic composting. J. Hazard. Mater. 2023, 442, 130047.

[4] Pang, L*., Zhang, Y. Y., Yang, H. Q., et al. The gas phase retention volume behavior of organophosphate esters on polyurethane foam. Chemosphere 2022, 300, 134506.

[5] Pang, L*., Liu, H. M., Yang, H. Q., et al. Seasonal variation and affecting factors of organophosphate esters in particulate matter in air: a comparison between measured data and model predictions. Environ. Sci. Pollut. R. 2021, 28, 36669.

[6] Pang, L*., Yang, P. J., Pang, R., et al. Determination of freely dissolved polycyclic aromatic hydrocarbons in human serum using core-shell Fe3O4@polyacrylate magnetic microspheres by exclusive volume effect. J. Chromatogr. A 2019, 1602, 100.

[7] Pang, L*., Yang, H. Q., Lv, L. N., et al. Occurrence and estrogenic potency of bisphenol analogs in sewage sludge from wastewater treatment plants in Central China. Arch. Environ. Con. Tox. 2019, 77, 461.

[8] Pang, L*., Yang, H. Q., Pang, R., et al. Occurrence, distribution, and risk assessment of organophosphate esters in urban street dust in the central province of Henan, China. Environ. Sci. Pollut. R. 2019, 26, 27862.

[9] Pang, L*., Yang, H. Q., Wang, Y., et al. Organophosphate flame retardants in total suspended particulates from an urban area of Zhengzhou, China: Temporal variations, potential affecting factors, and health risk assessment. Ecotox. Environ. Safe 2019, 176, 204.

[10] Pang, L*., Ge, L. M., Yang, P. J., et al. Degradation of organophosphate esters in sewage sludge: Effects of aerobic/anaerobic treatments and bacterial community compositions. Bioresource Technol. 2018, 255, 16.

[11] Pang, L*., Yang, P. J., Yang, H. Q., et al. Application of Fe3O4@MIL-100 (Fe) core-shell magnetic microspheres for evaluating the sorption of organophosphate esters to dissolved organic matter (DOM). Sci. Total Environ. 2018, 626, 42.

[12] Pang, L*., Yang, P. J., Lu, X. L., et al. Ionogel-based ionic liquid coating for solid- phase microextraction of organophosphorus pesticides from wine and juice samples. Food Anal. Method 2018, 11, 270.

[13] Pang, L*., Yang, H. Q., Yang, P. J., et al. Trace determination of organophosphate esters in white wine, red wine, and beer samples using dispersive liquid-liquid microextraction combined with ultra-high -performance liquid chromatography–tandem mass spectrometry. Food Chem. 2017, 229, 445.

[14] Pang, L*., Yang, P. J., Ge, L. M., et al. Accelerated solvent extraction combined with solid phase extraction for the determination of organophosphate esters from sewage sludge compost by UHPLC–MS/MS. Anal. Bioanal. Chem. 2017, 409, 1435.

[15] Pang, L*., Yang, P. J., Pang, R., et al. Bis(trifluoromethylsulfonyl)imide-based frozen ionic for the hollow-fiber solid-phase microextraction of dichlorodiphenyltrichloro-ethane and its main metabolites. J. Sep. Sci. 2017, 40, 3311.

[16] Pang, L*., Yang, P. J., Pang, R., et al. Polymeric ionic liquid based fused silica fiber by chemical binding for headspace solid-phase microextraction of organophosphate esters in water samples. Int. J. Environ. An. Ch. 2017, 97, 1094.

[17] Pang, L*., Yuan, Y. T., He, H., et al. Occurrence, distribution, and potential affecting factors of organophosphate flame retardants in sewage sludge of wastewater treatment plants in Henan Province, Central China. Chemosphere 2016, 152, 245.

[18] Pang, L*., Pang, R., Ge, L. M., et al. Trace determination of organophosphate esters in environmental water samples with an ionogel-based nanoconfined ionic liquid fiber coating for solid-phase microextraction with gas chromatography and flame photometric detection. J. Sep. Sci. 2016, 39, 4415.

[19] Pang, L*., Yang, P. J., Zhao, J. H., et al. Comparison of wastewater treatment processes on the removal efficiency of organophosphate esters. Water Sci. Technol. 2016, 74, 1602.

[20] Amde, M., Liu, J. F., Pang, L. Environmental application, fate, effects, and concerns of ionic liquids: A review. Environ. Sci. Technol. 2015, 49, 12611.

[21] Pang, L., Liu, J. F., Yin, Y. G., et al. Evaluating the sorption of organophosphate esters to different sourced humic acid and its effects on the toxicity to Daphnia magna. Environ. Toxicol. Chem. 2013, 32, 2755.

[22] Pang, L., Liu, J. F. Use of Fe3O4@nSiO2@mSiO2 magnetic mesoporous microspheres for fast determination of the sorption coefficients of polycyclic aromatic hydrocarbons to bovine serum albumin in aqueous phase. Acta Chim. Sinica 2013, 71, 339.

[23] Ma, X., Tan, Z. Q., Pang, L., et al. Determination of VOCs in groundwater at an industrial contamination site using a homemade low-density polyethylene passive diffusion sampler. J. Environ. Sci. 2013, 25, 2338.

[24] Pang L., Liu, J. F. Development of a solid-phase microextraction fiber by chemical binding of polymeric ionic liquid on a silica coated stainless steel wire. J. Chromatogr. A 2012, 1230, 8.

[25] Tan, Z. Q., Liu, J. F., Pang, L. Advances in analytical chemistry using the unique properties of ionic liquids. Trac-Trend Anal. Chem. 2012, 39, 218.

[26] Zhou, Q. X., Pang, L., Xiao, J. P. Ultratrace determination of carbamate pesticides in water samples by temperature controlled ionic liquid dispersive liquid phase microextraction combined with high performance liquid phase chromatography. Microchim. Acta 2011, 173, 477.

[27] Zhou, Q. X., Pang, L., Xie, G. H., et al. Dispersive liquid phase micro-extraction of aromatic amines in environmental water samples. Int. J. Environ. An. Ch. 2010, 90, 1099.

[28] Zhou, Q. X., Pang, L., Xiao, J. P. Trace determination of dichlorodiphenyltrichloroethane and its main metabolites in environmental water samples with dispersive liquid-liquid microextraction in combination with high performance liquid chromatography and ultraviolet detector. J. Chromatogr. A 2009, 1216, 6680.

[29] Zhou, Q. X., Pang, L., Xie, G. H., et al. Determination of atrazine and simazine in environmental water samples by dispersive liquid-liquid microextraction with high performance liquid chromatography. Anal. Sci. 2009, 25, 73.