2018年及过往实验室发表论文

1.        “Photocatalytic reduction ofCr (VI) on nano-sized red phosphorus under visible light irradiation”， Donghui Li, Jiaojiao Li, Qianwei Jin,Zhenpeng Ren, Yuewei Sun, Ruiqin Zhang, Yunpu Zhai*, Yonggang Liu*，Journal of Colloid and Interface Science, 2018,537,256-261.

2.       “Facile synthesis of ultrathin red phosphorus nanosheets withexcellent photocatalytic performances”, Yuewei Sun, Zhenpeng Ren, Yonggang Liu*,Rongbing Fu, Materials Letters, 236(2019) 542-546.

3.       “Facile synthesis of PdNiP/Reduced graphene oxide nanocomposites forcatalytic reduction of 4-nitrophenol”, Xiang Gao, Hao Zhao, Yonggang Liu*,Zhenpeng Ren, Cuiping Lin, Jianli Tao, Yunpu Zhai*,Materials Chemistry and Physics, 2019, 222, 391–397.

4.        “Facile fabricationnano-sized red phosphorus with enhanced photocatalytic activity by hydrothermaland ultrasonic method”, Zhenpeng Ren, Donghui Li, Qiang Xue, Jiaojiao Li,Yuewei Sun, Ruiqin Zhang, Yunpu Zhai* and Yonggang Liu*,   CatalysisToday, 2018,340,115-120

5.        “Dual-template synthesis ofcage-like Ni-based catalyst for hydrotreatment of bio-oil”, Jianli Tao, Lujuan Liu,Peihong Zhu, Kang Zhai, Qian Ma, Danning Zhang, Jie Ma,Yunpu Zhai*, Yonggang Liu and Ruiqin Zhang,   Journalof Porous Materials, 2018,26(3),819-828

6.        “Segmented catalytic co-pyrolysis of biomassand high-density polyethylene for aromatics production with MgCl₂ andHZSM-5”, Xiangfei Xue, Zeyou Pan, Changsen Zhang^⁎, Dengtai Wang, Yunyun Xie, Journal of Analytical and Applied Pyrolysis, 134 (2018) 209-217

7.       “Quantifyingthe exergetic performance of bio-fuel production process including fastpyrolysis and bio-oil hydrodeoxygenation” Qizheng Lv, Hui Yue, Qixiang Xu, ChangsenZhang*, and Ruiqin Zhang, Journal ofRenewable and Sustainable Energy 10, 043107 (2018)

8.       “Evaluationof process parameters on high-density polyethylene hydro-liquefaction products”Zeyou Pan, Xiangfei Xue, Changsen Zhang^⁎, Dengtai Wang, Yunyun Xie, Journal of Analytical and Applied Pyrolysis, 2018,136,146-152.

9.       “Productionof aromatic hydrocarbons by hydro-liquefaction of high-density polyethylene(HDPE) over Ni/HZSM-5”, Zeyou Pan, Xiangfei Xue, Changsen Zhang^⁎, Dengtai Wang, Yunyun Xie, Journal of Analytical and Applied Pyrolysis, 2018,136,208-214.

10.    “Comparative major components and health risks oftoxic elements and polycyclic aromatic hydrocarbons of PM2.5 in winter andsummer in Zhengzhou: Based on three-year data”. Nan Jiang, Shiguang Duan, XueYu, Ruiqin Zhang, Ke Wang. AtmosphericResearch, 2018, 213, 173–184.

11.    “Chemical characteristics and source apportionmentof PM2.5 between heavily polluted days and other days in Zhengzhou, China”. NanJiang, Qiang Li, Fangcheng Su, Qun Wang, Xue Yu, Panru Kang, Ruiqin Zhang,Xiaoyan Tang. Journal of EnvironmentalSciences, 2018, 66, 188-198.

12.    “Chemical Composition Characteristics of PM2.5 inThree Cities in Henan, Central China”. Nan Jiang, Yue Guo, Qun Wang, PanruKang, Ruiqin Zhang, Xiaoyan Tang. Aerosoland Air Quality Research, 2017, 17: 2367-2380.

13.    “Characteristics of mass concentration, chemicalcomposition, source apportionment of PM2.5 and PM10 and health risk assessmentin the emerging megacity in China”. Nan Jiang, Shasha Yin, Yue Guo, Jingyi Li,Panru Kang, Ruiqin Zhang, Xiaoyan Tang. AtmosphericPollution Research, 2018, 9, 309-321.

14.    “Characterization of PM10 and PM2.5 source profilesfor fugitive dust in Zhengzhou, China”. Nan Jiang, Zhe Dong, Yuanqian Xu, FeiYu, Shasha Yin, Ruiqin Zhang, Xiaoyan Tang. Aerosoland Air Quality Research, 2018, 18, 314-329.

15.    “Chemical characteristic and source apportionment bydifferent receptor models of size-segregated aerosols and meteorological impactin the emerging megacity in China”. Nan Jiang, Ke Wang, Xue Yu, Fangcheng Su,Shasha Yin, Qiang Li, Ruiqin Zhang. Aerosoland Air Quality Research, 2018, 18, 1375-1390.

16.    “Variation tendency of pollution characterization,sources, and health risks of PM2.5-bound polycyclic aromatic hydrocarbons in anemerging megacity in China: Based on three-year data”. Nan Jiang, Liping Li,Shanshan Wang, Qiang Li, Zhe Dong, Shiguang Duan, Ruiqin Zhang, Shengli Li. Atmospheric Research,2019,217,81-92.

17.    “Spatial-seasonal distribution and sourceapportionment of PM2.5-bound polycyclic aromatic hydrocarbons in Zhengzhou in2016”. Qiang Li, Nan Jiang*, Xue Yu, Zhe Dong, Shiguang Duan, Ruiqin Zhang**. Atmospheric Research, 2019, 216, 65-75.

18.    High-resolution ammonia emission inventories withcomprehensive analysis and evaluation in Henan, China, 2006–2016, Wang C., YinS.S*., Bai L., et al., AtmosphericEnvironment, 2018, 193: 11-23.

19.    Characteristics of inorganic aerosol formation overammonia-poor and ammonia-rich areas in the Pearl River Delta region, China. YinS.S., Huang Z, Zheng J, et al. AtmosphericEnvironment, 2018, 177: 120-131.

20.    Analyses of biomass burning contribution to aerosolin Zhengzhou during wheat harvest season in 2015. Chen H.Y., Yin S.S., Li X, etal. Atmospheric Research, 2018, 207:62-73.

21.    “Particlesize distribution, chemical composition and meteorological factor analysis: Acase study during wintertime snow cover in Zhengzhou, China”, Yu F., Wang Q.,Yan Q.S., Jiang N., Wei J.H., Wei Z.Y., Yin S.S.*, Atmospheric Research, 2018, 202: 140-147

22.    “Distribution and source of chemical elements insize-resolved particles in Zhengzhou, China: effects of regional transport”,Wang S.B., Yan Q.S., Yu F., Wang Q., Yang L.M., Zhang R.Q., Yin S.S.*, Aerosol and Air Quality Research, 2018,18(2): 371-385

23.   “Refined2013-based vehicle emission inventory and its spatial and   temporal characteristics in Zhengzhou,China”, Mimi Gong, Shasha Yin^*, Xingke Gu, Yuanqian Xu, Nan Jiang, RuiqinZhang, Science of The Total Environment,DEC 1 2017, 599, 1149-1159.

24.   “ChemicalComposition Characteristics of PM2.5 in Three Cities in Henan, Central China”,Nan Jiang, Yue Guo, Qun Wang, Panru Kang, Ruiqin Zhang, Xiaoyan Tang, Aerosol and Air Quality Research,   OCT2017, 17, 10, 2367-2380

25.   “Bioleaching in batch tests for improving sludge dewaterability and metal removalusing Acidithiobacillus ferrooxidans and Acidithiobacillus    thiooxidans after cold acclimation”, QingyangZhou, Jingqing Gao^*, Yonghong Li, Songfeng Zhu, Lulu He, Wei Nie, RuiqinZhang, Water Science and Technology, SEP2017, 7 6 (6), 1347-1359.

26.   “Ammoniastress on nitrogen metabolism in tolerant aquatic    plant-Myriophyllum aquaticum”, Qingyang Zhou,Jingqing Gao^*, Ruimin Zhang, Ruiqin Zhang, Ecotoxicology and Environmental Safety, SEP 2017, 143, 102-110.

27.   “Carbonaceousspecies in PM2.5 and PM10 in urban area of Zhengzhou in    China: Seasonal variations and sourceapportionment”, Qun Wang, Nan Jiang, Shasha Yin, Xiao Li, Fei Yu, Yue Guo,Ruiqin Zhang^*, AtmosphericResearch, JUL 15 2017, 191, 1-11.

28.   “Spatialand temporal evaluation of long term trend (2005-2014) of OMI    retrieved NO2 a nd SO2 concentrations inHenan Province, China”, Leishi Zhang, Chih Sheng Lee, Ruiqin Zhang^*,Liangfu Chen, Atmospheric Environment,APR 2017, 154, 151-166.

29.   “Cokeformation on the surface of Ni/HZSM-5 and Ni-Cu/HZSM-5 catalysts during bio-oilhydrodeoxygenation”, Yu Li, Changsen Zhang, Yonggang Liu, Songshan Tang, GuanghuiChen, Ruiqin Zhang^*, Xiaoyan Tang, Fuel, FEB 1 2017, 189, 23-31.

30.   “Trackingpollutant characteristics during haze events at background site    Zhongmu, Henan Province, China”, Fei Yu,Qishe Yan, Nan Jiang, Fangcheng Su, Leishi Zhang, Shasha Yin, Yang Li, RuiqinZhang^*, Liangfu Chen^*, Atmospheric Pollution Research, JAN 2017, 8(1), 64-73.

31.    “LMDI decompositionanalysis of industry carbon emissions in Henan Province, China: comparisonbetween different 5-year plans”.Lei Liu,Shanshan Wang, Ke Wang ,Ruiqin Zhang ,XiaoyanTang，Nat Hazards (2016) 80:997–1014

32.   “OxidativeStress and Endocytosis are Involved in Upregulation of Interleukin-8 Expressionin Airway Cells Exposed to PM2.5”, Zhen Yan, Jia Wang, Juan Li, Nan Jiang,Ruiqin Zhang, Weichao Yang, Wu Yao, Weidong Wu，Environmental Toxicology,2016, 31, 12, 1869-1878

33.    “Environmental co-benefits of energy efficiencyimprovement in coal-fired power sector: A case study of Henan Province, China”,Ke Wang, Shanshan Wang, Lei Liu, Hui Yue, RuiqinZhang , Xiaoyan Tang ，Applied Energy 184 (2016) 810–819

34.    “Secondary PM_2.5 in Zhengzhou, China:Chemical Species Based on Three Years of Observations”,Jia Wang, Xiao Li, Wenkai Zhang, Nan Jiang, RuiqinZhang , Xiaoyan Tang，Aerosol and Air QualityResearch, 16: 91–104,2016

35.    “Study of X-ray photoelectron spectroscopy on coke depositedon Ni/HZSM-5 in bio-oil hydrodeoxygenation”,Yu Li，Changsen Zhang， Yonggang Liu，Guanghui Chen，Songshan Tang，Ruiqin Zhang，Xiaoyan Tang，ReacKinet Mech Cat (2016)117:801–813

36.    “Effect of Ammonia Stress on Nitrogen Metabolism ofCeratophyllum Demersum”,J Ingqing G Ao , L Inshuai LI ,Z Hiyuan H U , H Ui Y Ue ,R Uiqin Z Hang , And Z Hiting X Iong，Environmental Toxicology and Chemistry, Vol. 35, No. 1, pp. 205–211, 2016

37.    Efficient photocatalytic degradation of tetracyclinehydrochloride by Ag3PO4 under visible-light irradiation，Yan QiShe*, XuMengMeng, Lin CuiPing, Hu Jifei, Liu YongGang, Zhang RuiQin, EnvironmentalScience and Pollution Research, 2016, 23(14), 14422-14430

38.    Study of X-ray photoelectron spectroscopy on cokedeposited on Ni/HZSM-5 in bio-oil hydrodeoxygenation, Li Yu, Zhang Changsen,Liu Yonggang, Chen Guanghui, Tang Songshan, Zhang Ruiqin*, Tang Xiaoyan, ReactionKinetics Mechanisms and Catalysis, 2016, 117(2), 801-81

39.    Effect of ammonia stress on nitrogen metabolism ofceratophyllum demersum,   Gao Jingqing*,Li Linshuai, Hu Zhiyuan, Yue Hui, Zhang Ruiqin, Xiong Zhiting, EnvironmentalToxicology and Chemistry, 2016, 35(1), 205-211

40.    LMDI decomposition analysis of industry carbonemissions in Henan Province, China: comparison between different 5-year plans,Liu Lei, Wang Shanshan, Wang Ke, Zhang Ruiqin, Tang Xiaoyan, Natural Hazards,2016, 80(2), 997-1014

41.   Secondary PM_2.5in Zhengzhou, China: Chemical Species Based on Three Years of Observations, Wang J., Li X., Zhang W., Jiang N., Zhang R.*, Tang X.,Aerosol and Air Quality Research,2016, 16(1), 91-104

42.   Catalytic reforming of acetic acid as a modelcompound of bio-oil for hydrogen production over Ni- CeO₂- MgO/olivine catalysts. Xu, Xingmin, Changsen Zhang, YonggangLiu, Yunpu Zhai, Ruiqin Zhang, Xiaoyan Tang.   Environmental Progress & SustainableEnergy. 2015, 34,915-922.

43.   Longterm observations of PM_2.5-associated PAHs: Comparisons betweennormal and episode days, Wang J., Li X., Jiang N., Zhang W., Tang X., ZhangR.*,Atmospheric Environment, 2015,104,228-236

44.    Coke deposition on Ni/HZSM-5in bio-oil hydrodeoxygenation processing.Yu Li, ChangsenZhang, Yonggang Liu, Xiaoxue Hou, Ruiqin Zhang, XiaoyanTang.   Energy fuels 2015, 29,1722-1728.

45.   LMDI decomposition analysis of industry carbonemissions in Henan Province, China: comparison between different 5-year plans.Lei Liu, Shanshan Wang, Ke Wang, Ruiqin Zhang*. Natural Hazards 2015, 80，997-1014

46.   Degradation ofSulfadimethoxine and Products in Aqueous Solution by BiOI Under Visible Lightwith H₂O₂,   Zhang, Luyun; Yan, Qishe; Wang, Yanyan;   Zhang, Ruiqin, Synthesis and Reactivity in Inorganic,Metal-Organic,and Nano-Metal Chemistry, 2015（45）,1245–1250

47.   Efficient visible-lightphotocatalytic degradation of sulfadiazine sodium with hierarchical Bi₇O₉I₃under solar irradiation, Qishe Yan, WaterScience & Technology, 2015，72（12）2122-2131

48.   Hydrotreatment ofbio-oil over Pd-based catalysts，Yunpu Zhai, Peihong Zhu, Songling Li, Changsen Zhang, Zhijun Li, Xingmin Xu,Gaofeng Chen, Zhichao Tan, Ruiqin Zhang, and Yonggang Liu*，Journal of Renewable and Sustainable Energy 2014,6(4),043129.

49.   Ammonia stress on thecarbon metabolism of Ceratophyllum demersum. Gao J, Li L, Hu Z, Zhu S, Xiong Z.Environmental Toxicology and Chemistry, 2015,34(4),843-849.

50.   Upgrading bio-oil modelcompounds phenol and furfural with in situ generated hydrogen. Tan Z, Xu X, Liu Y, Zhang C, Zhai Y, Liu P, LiY, Zhang R. Environ Prog Sustain, 2014, 33(3): 751-755

51.    Enhancedremoval of contaminant using the biological film, anoxic–anaerobic–aerobic andelectro-coagulation process applied to high-load sewage treatment. Wang W, ChenS, Bao K, Gao J, Zhang R, Zhang Z, Sugiura N. Environmental technology, 2014,35(7): 833-840

52.    Catalytic reforming of acetic acid as a modelcompound of bio-oil for hydrogen production over Ni-CeO2-MgO/olivine catalysts.Xu X, Zhang C, Liu Y, Zhai Y, Zhang R, Tang X. Environ Prog Sustain, 2014, DOI10.1002/ep.12062

53.    Upgradingof bio-oil using supercritical 1-butanol over a Ru/C heterogeneous catalyst:Role of the solvent.       Xu X, Zhang C,Zhai Y, Liu Y, Zhang R, Tang X. Energ Fuel, 2014, 28, 4611−4621

54.    REMOVALOF PHOSPHORUS FROM DOMESTIC SEWAGE BY IRON-CARBON MICRO-ELECTROLYSIS UNDERDYNAMIC AND CONTINUOUS CONDITIONS. Zhu S, Gao J, Ba K, Bao K, Zhang R. FresenEnviron Bull, 2014, 23(4): 1006-1011

55.    Catalyticreforming of toluene as tar model compound: Effect of Ce and Ce–Mg promoterusing Ni/olivine catalyst. Zhang R, Wang H, Hou X.Chemosphere, 2014, 97(0):40-46

56.    PhosphorusRemoval from Continuous Phosphate-ContaminatedWater by Electrocoagulation usingAluminum and Iron PlatesAlternately as Electrodes. Shaohua Chen, Yiming Shi,Wenlong Wang, Zhenyu Li, Jingqing Gao, Keqian Bao,Runping Han a & RuiqinZhangSeparation Science and Technology, 49: 939–945, 2014

57.    Nutrient removal capability and growthcharacteristics of Iris sibirica in subsurface vertical flow constructedwetlands in winter. Gao J, Wang W, Guo X, Zhu S, Chen S, Zhang R. EcolEng,2014, 70(0): 351-361

58.    Degradationof sulfadimethoxine and products in aqueous solution by BiOI under visiblelight with H2O2.luyun zhang, qishe yan，yanyanwang，hongwensun，ruiqinzhang.EnvironmentalScience and Pollution Research

59.    PAHsin PM2.5 in Zhengzhou: concentration, carcinogenic risk analysis, and sourceapportionment.Wang,J. Geng, N. B. Xu, Y. F. Zhang, W. D. Tang, X. Y. Zhang, R. Q. Environ MonitAssess.2014,volume:186,issue:11,pages:7461-73

60.   “Degrading Bio-oil modelcompounds phenol and furfural with in situ generated hydrogen”.Zhichao Tan,Xingmin Xu, Yonggang Liu, Changsen Zhang, Yunpu Zhai,   Peng liu, Yu Li and RuiqinZhang*, Environmental Progress &Sustainable Energy, 2014, 33, 3, 751-755

61.    “Two-step catalytic hydrodeoxygenation of fastpyrolysis oil to hydrocarbon liquid fuels”.   XingMin Xu, ChangsenZhang, Yonggang Liu,, Yunpu Zhai, Ruiqin Zhang, Chemosphere(2013)93, 652-660.

62.   “Catalytic Conversion ofTar Compounds from Biomass over Modified Ni/olivine Catalysts”.Chang SenZhang, Zhi Jun Li, Xing Min Xu, Li Yang,Rui Qin Zhang. Advanced Materials Research(2013) 666:67-75

63.   “Catalytic reforming oftoluene as tar model compound: Effect of Ce and Ce–Mg promoter using Ni/olivinecatalyst” Ruiqin Zhang , Huajian Wang, and Xiaoxue Hou. Chemosphere, 2014, 97, 40-46.

64.    “Sorption of chloramphenicol on pond sedimentsand the effect of coexistence Cu(II)”Yan, Q., L. Zhang, M. Jiang, R. Zhang, andH. Sun. Water science and technology : a journal of the InternationalAssociation on Water Pollution Research, 2013. 68(6): p. 1251-7.

65.    “Degradation ofSulfadimethoxine and Products in aqueous solution by BiOI under Visible Lightwith H₂O₂”, Luyun Zhang, Qishe Yan, Yanyan Wang, RuiqinZhang, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-MetalChemistry, 2015, 45, 8, 1245-1250.

66.    “Bench-Scale Fluidized-Bed Fast Pyrolysis ofPeanut Shell for Bio-Oil Production”, Changsen Zhang, Ruiqin Zhang, Xipeng Li, Yuewei Li, Wen Shi, Xiantao Ren and Xingmin Xu.EnvironmentalProgress & Sustainable Energy, 2011, 30(1),11-18.

67.   “Peroxidation damage andantioxidative capability of Ceratophyllum demersum under NH₄⁺-Nstress”, Jingqing Gao, Na Ma, Jun Zhou, Wenlong Wang, Zhiting Xiong, FeliciteObono Mba and Na Chen, Journalof Freshwater Ecology, 2012, 27（4）,539-549

68.   "Optimizationof phosphorus removal from phosphate-contaminated water by electrocoagulationusing aluminum and iron plate electrodes", Jingqing Gao, Keqian Bao,Xuelei Jia, Jun Zhou and Ruiqin Zhang, FreseniusEnvironmental Bulletin,2012, 21( 9), 2581-2586

69.    “Enhanced removal of chemical oxygen demand, nitrogenand phosphorus using the ameliorative anoxic/anaerobic/oxic process andmicro-electrolysis”,K. Q. Bao, J. Q. Gao, Z. B. Wang, and R. Q. Zhang, Water Science and Technology, 2012, 66(4), 850-857

70.   “ Long-term effectsand performance of two-stage baffled surface flow constructed wetland treatingpolluted river”. Wen-long Wang, Jing-qing Gao, Xiao Guo, Wen-chaoLi, Xin-yuan Tian, Rui-qin Zhang. Ecological Engineering, 2012，49，93-103

71.   “Removal of fluoride from water by five submerged plants”. Jun Zhou, Jingqing Gao, Yang Liu, Kun Ba, ShaohuaChen, Ruiqin Zhang.   Bulletin of Environmental Contamination and Toxicology, 2012,89(2):395-399.

72.    “PurificationEffects on Three Water Purification Materials of Disaster EmergencyWater Purifier in Drinking Water”. Chen Shaohua,Liu Guohua, Gao Jingqing, Han Runping, Zhang Ruiqin. Disaster Advances,.2012,5(4):1431-1436.

73.    Treatmentof domestic wastewater using composite ecological system in Chinese rural area.International Journal of EnvironmentalTechnology and Management, 2014, 17(5): 365-376

74.   “Element characteristicsand source apportionment of trace elements in PM in an industrial zone ofZhengzhou”, Ningbo Geng, Jia Wang, Yifei Xu, Wending Zhang and Ruiqin Zhang* Sustain. Environ. Res., 23(1), 1-13(2013)

75.   “Effectsof ammonium nitrogen on the growth of Ceratophyllum demersum”, Gao,Jingqing; Chen, Na; Huang, Wuxing; Li, Mingjing; Xiong, Zhiting; Zhang, Ruiqin, 5th International Conference onBioinformatics and Biomedical ngineering, iCBBE 2011

76.   “Phosphorus adsorbabilityon five kinds of silicate substrates”, Gao, Jingqing; Wang, Zhibin; Bao,Keqian; Zhou, Jun; Zhang, Rinqin, 5thInternational Conference on Bioinformatics and Biomedical Engineering,iCBBE 2011

77.   “花生壳快速热解液化实验”,张长森，石文，徐兴敏，马梅英，赵鸿杰，张瑞芹.农业机械学报,2010, 41(5), 82-85.

78.   段时光，姜楠*，杨留明，张瑞芹**. 郑州市冬季大气PM_2.5传输路径和潜在源分析[J].环境科学, 2019, 40(1):87-94.

79.    “河南省2013年大气氨排放清单建立及分布特征”，王琛，尹沙沙，于世杰，卫军华，谷幸珂，宫密秘，张瑞芹，环境科学，2018年03期。

80.   “碱改性HZSM-5 催化热解木质素催化剂失活分析”，唐松山，泮泽优，张长森*，王登台，薛翔飞，刘永刚，张瑞芹，化工学报，2017，68,（12）: 4739-4749

81.   “基于生命周期评价的河南省原铝生产环境影响分析”，王姗姗，刘赛男，王灿，张瑞芹，轻金属，2018年第3期。

82.   “河南省电力行业煤炭消费总量控制及其环境影响评估”，杨书娴，王姗姗，王克，刘赛男，张鹏举，张瑞芹，中国煤炭，2017年10期。

83.   “典型背景区大气颗粒物中元素粒径分布特征”，王申博，余飞，燕启社，王群，姜楠，尹沙沙，张瑞芹，环境科学与技术，2017年06期。

84.   “郑州市大气PM2.5中正构烷烃污染特征及来源解析”，王群，尹沙沙，余飞，姜楠，张瑞芹，郑州大学学报(理学版)，2017年03期。

85.   “郑州市近地面臭氧污染特征及气象因素分析”，于世杰，尹沙沙，张瑞芹，张磊石，苏方成，徐艺斐，中国环境监测,   2017年04期。

86.   “油水两相体系中非晶态NiB/SiO2-Al2O3对生物油模型化合物的加氢脱氧研究”，刘璐娟，刘永刚，高翔，张瑞芹，翟赟璞，燃料化学学报，2017年08期。

87.   “CeO₂对Ni-Cu/HZSM-5催化剂在生物油加氢脱氧反应中抗积炭性能的影响”，陈广辉，李玉，张长森，张瑞芹，燃料化学学报，2017年04期。

88.   “河南省秸秆露天焚烧大气污染物排放量的估算与分析”,付乐,王姗姗,武志立,刘赛男,杨书娴,张瑞芹,农业环境科学学报, 2017年04期。

89.   “基于生物质双流化床快速热解生产流程模拟的分析”,吕奇铮，徐起翔，张长森，张瑞芹，化工进展，2016 年第 35 卷第 3 期。

90.   Aspen Plus在生物质快速热解制取燃料油中的应用进展，吕奇铮，徐起翔，张长森，张瑞芹，岳辉，张莉红.化工进展 2016年第35卷增刊1。

91.   不同减排情景下郑州市机动车污染物排放研究，张文凯，徐媛倩，李晓   姜楠，张瑞芹，环境污染与防治 2016年10月期。

92.    秸秆燃烧排放 PM_2.5特征及影响因素研究，王玉珏，胡敏，王渝，秦艳红，陈红阳，曾立民，雷建容，黄晓锋，何凌燕，张瑞芹，吴志军.化学学报Acta Chim. Sinica 2016,74, 356—362期刊

93.       郑州市 PM10和PM2.5中多环芳烃污染特征及健康风险评价，王群，郭月，姜楠，张瑞芹.郑州大学学报(理学版)第48卷第2期2016年6月期刊

94.    郑州市裸露地面风蚀扬尘排放清单研究，徐媛倩，姜楠，燕启社，张瑞芹，陈良富，李莘莘.环境污染与防治第38卷第4期2016年4月期刊

95.    基于生物质双流化床快速热解生产流程模拟的分析，吕奇铮;徐起翔;张长森*;张瑞芹，化工进展，2016.35(03):0727–06

96.    不同减排情景下郑州市机动车污染物排放研究. 张文凯，徐媛倩，李晓，姜楠，张瑞芹*，环境污染与防治，2016.38(04):22-27

97.    郑州市PM₁₀和PM_2.5中PAHs污染特征及健康风险评估，王群，郭月，姜楠，张瑞芹*，郑州大学学报，2016，48（02）:84-89

98.    郑州市裸地扬尘源颗粒物排放清单研究，徐媛倩，姜楠，燕启社，等，环境污染与防治，2016.38(04):22-27

99.    郑州市土壤扬尘排放量估算及分布特征研究，徐媛倩,姜楠,燕启社,等*，中国环境科学学会学术年会，2015

100.郑州市大气PM_2.5污染传输影响研究，陈杜甫，高祎楠，张稳定,等，中国环境科学学会学术年会，2015（优秀论文奖）

101.郑州市2013-2014年冬春夏秋季PM_2.5源解析研究，康盼如，姜楠，王佳，等，中国环境科学学会学术年会，2015

102.基于投入产出表河南省产业关联及其碳排放影响研究. 林举英,王姗姗, 张瑞芹,刘磊.科技和产业, 2015,(已接收未发表）

103.基于成本分析的节能技术综合评价方法研究. 王哲,王珊珊, 张文选,张瑞芹.能源技术与管理, 2015, 39(04): 186-188

104.典型区域土壤中多环芳烃的污染分布特征. 王潇磊,高镜清, 申进朝.环境监测管理与技术, 2014, 26(2): 22-25

105.电机系统及其节能技术评价研究. 张文选,张瑞芹, 曹冬冬,王哲. 节能, 2014, 377: 8-11

106.基于成本分析的节能技术综合评价方法研究. 王哲,王珊珊, 张文选,张瑞芹. 能源技术与管理, 2014, 39(4): 186-188

107.河南省工业能源消费及大气污染物排放预测研究. 田璐璐,王克, 刘磊,张瑞芹.   清洁煤与能源,2013, 1, 1-7

108.络合萃取法回收生物油加氢水相中的乙酸. 陈瑞红,翟赟璞, 刘永刚,张瑞芹.现代化工, 2014, 34(09): 114-117

109.郑州市PM_(2.5)和PM_(10)中水溶性无机离子的污染特征.王佳, 李晓,吴瑞杰, 李运中,张瑞芹.郑州大学学报(理学版), 2014, 46(04): 81-87

110.微电解法去除生活污水中磷的试验研究，贾雪雷，朱崇梅，张婉，朱松峰，高镜清，水处理技术，2013，39（10）：31-34

111.运用ChemCAD计算氢气在烃类中的溶解度.王世丽,刘永刚, 张瑞芹.现代化工, 2013(05):   114-118.

112.氢气在柴油中溶解度的测定与模拟计算.王世丽,翟康, 张瑞芹,范利杰,刘永刚.化工进展2013(09): 2049-2055.

113.“The promotion of clean development mechanism to cement industry capturingwaste heat for power generation in China”.Yan Qishe Zhou Changbo etc. Mitigation and Adaptation Strategies forGlobal Change, 2009,14: 793-804.

114.清洁发展机制对我国节能减排的作用，燕启社，张瑞芹等.环境保护科学，2009,109-116.

115.5种硅酸盐填料对氨氮的吸附性研究,王志斌,高镜清,张瑞芹.郑州大学学报(工学版), 2010, 31(4), 97-100.

116.铵态氮胁迫下金鱼藻的过氧化损伤和抗氧化能力. 高镜清，黄五星，黄宇，熊治廷.武汉大学学报（理学版）2010, 56(5), 590

117.生物质燃气中焦油的催化转化脱除研究,张长森，张瑞芹.安徽农业科学, 2010, 38(2), 874-876.

118.木屑快速热解液化与产品分析,张长森，石文，徐兴敏，张瑞芹.化工进展, 2010, 25(9), 952-957.

119.5种改性硅酸盐填料对磷的吸附性研究.高镜清，王志斌，鲍可茜，周俊，张瑞芹.郑州大学学报（理学版）,2011, 43(2), 100

120.5种改性硅酸盐吸附剂对腐殖酸的吸附性比较.高镜清，王志斌，周俊，鲍可茜，张瑞芹.郑州大学学报(工学版),2011,32(4), 90

121.富营养化水体中铵态氮对金鱼藻生长的影响.高镜清,燕启社,黄五星,熊治廷.长江流域资源与环境.2011, 20(5), 611

122.河南省工业能效政策和项目评估研究，张少辉，张长森，侯小阁，卢蕊，张瑞芹，中国人口资源与环境[J]，2011,Vol 21, No. 12, 36-39

123.土壤生态系统处理生活污水的应用研究蒋利伟，燕启社，黄飞，张瑞芹.郑州大学学报(工学版). 2012 第33卷第1期79-83

124.   ICP-MS分析郑州市高新区大气颗粒物中金属元素.耿柠波，王佳，徐艺斐，张稳定，张瑞芹，陈纯.天津师范大学学报(自然科学版)[J]，2012，32,85-88.

125.   鲍可茜，高镜清，周俊，张瑞芹.改进型合并净化槽处理生活污水条件运行研究. 水资源保护，2012，28（4）：69-73.