2013年发表的期刊论文

发布日期:2014-01-17  浏览量:

2013英文期刊

[1] Junjie Liao,Lei Bao,Wenbo Wang,Yuanyuan Xie,Jinyu Chang,Weiren Bao,Liping Chang.Preparation of AlCl3/silica gel catalyst for simultaneously removing thiophene and olefins from coking benzene by inclosed grafting method.Fuel Processing Technology,2014,117: 38-43

[2] Yulong Zhang,Meijun Wang,Zheng Qin,Yunlong Yang,Chunhui Fu,Li Feng,Liping Chang.Effect of the interactions between volatiles and char on sulfur transformation during brown coal upgrade by pyrolysis.Fuel,2013,103: 915-922

[3] Yulong Zhang,Jianming Wu,Liping Chang,Junfeng Wang,Sheng Xue,Zhengfeng Li.Kinetic and thermodynamic studies on the mechanism of low-temperature oxidation of coal: A case study of Shendong coal (China).International Journal of Coal Geology,2013,120: 41-49

[4] Meijun Wang,Yongfeng Hu,Jiancheng Wang,Liping Chang,Hui Wang.Transformation of sulfur during pyrolysis of inertinite-rich coals and correlation with their characteristics.Journal of Analytical and Applied Pyrolysis,2013,104: 585-592

[5] Meijun Wang,Daniel G. Roberts,Mark A. Kochanek,David J. Harris,Liping Chang,Chun-Zhu Li.Raman Spectroscopic Investigations into Links between Intrinsic Reactivity and Char Chemical Structure.Energy & Fuels,2014

[6] Meijun Wang,Chunhui Fu,Liping Chang,Kechang Xie.Pyrolytic characteristics and kinetics of fractional step demineralized coals with different reductive properties by TGA.Asian Journal of Chemistry,2013,25(12): 6920-6924

[7] Jinling Zhang,Wangshu Chen,Huiming Yang,Meijun Wang,Xiurong Ren,Liping Chang.Formation of NH3during temperature-programmed and isotherm pyrolysis of different rank coals.Asian Journal of Chemistry,2013,25(13): 7571-7574

[8] Chen Wangshu,Qin Zheng,Wang Meijun,Zhang Jinling,Zhang Yulong,Chang Liping.Effects of potassium additive on transformation of sulfur in coal during pyrolysis.Asian Journal of Chemistry,2013,25(14): 8111-8115

[9] Yunlong Yang,Xiaoxia Jing,Zhiqiang Li,Xiao Liu,Yulong Zhang,Liping Chang.Effect of drying conditions on moisture re-adsorption performance of dewatered lignite.Drying Technology,2013,31(12): 1430-1437

[10]Wang Jiancheng,Liu Zhiqiang,Feng Gang,Chang Liping,Bao Weiren.In situ synthesis of CuSAPO-34/cordierite and its selective catalytic reduction of nitrogen oxides in vehicle exhaust: The effect of HF.Fuel,2013,109: 101-109

[11]Wang Jiancheng,Liu Lianwei,Han Lina1,Hu Yongfeng,Chang Liping,Bao Weiren.Alumina-supported manganese oxide sorbent prepared by sub-critical water impregnation for hot coal gas desulfurization.Fuel Processing Technology,2013,110(1): 235-241

[12]Wang Jiancheng,Zhang Yunpeng,Han Lina,Chang Liping,Bao Weiren.Simultaneous removal of hydrogen sulfide and mercury from simulated syngas by iron-based sorbents.Fuel,2013,103(1): 73-79

[13]Jian-cheng WANG,Ying CHEN,Lei TANG,Wei-ren BAO,Li-ping CHANG,Li-na HAN.One-step hydrothermal synthesis of Cu−SAPO−34/cordierite and its catalytic performance on NOx removal from diesel vehicles.Trans. Nonferrous Met. Soc. China,2013 (23) 3330-3336

[14]ZuoYongquan,Han Lina,Bao Weiren,Chang Liping,Wang Jiancheng.Effect of CuSAPO-34 catalyst preparation method on NOx removal from diesel vehicle exhausts.Chinese Journal of Catalysis,2013,34(6): 1112–1122

[15]Gao Zhijuan,Bao Weiren,Chang Liping,Wang Jiancheng.In-situ Synthesis of Cu-SAPO-34/cordierite with ultrasonic treatment and its property of NOx removal.Materials Science ForumEnergy and Environment Materials,2013,743-744: 449-454

[16]Yurong Dong,Xiurong Ren,Meijun Wang,Qiang He,Liping Chang,Weiren Bao.Effect of impregnation methods on sorbents made from lignite for desulfurization at middle temperature.Journal of Energy Chemistry,2013,22(5): 783–789

[17]Wang Yingli,Zhao Yuying,Zuo Yongquan,Chang Liping.Characteristics and kinetics analysis ofCodonopsis pilosulapyrolysis.Journal of Thermal Analysis and Calorimetry,2013,111(3): 1939-1945

[18]Qin Haochen,Liu Lianwei,Si Weiping,Chang Liping,Bao Weiren,Han Lina.Desulfurization and regeneration performance of sorbent prepared by subcritical water impregnation.Materials Science ForumEnergy and Environment Materials,2013(743-744): 443-448

[19]Chunhui Fu,Jiancheng Wang,Yongfeng Hu,Meijun Wang,Jinling Zhang,Liping Chang.Analyses on forms of sulfur in Chinese Yanzhou coal and their transformation during pyrolysis by X-ray absorption spectroscopy.Journal of Physics: Conference Series,2013 (430): 012096

[20]Chunhui Fu,Meijun Wang,Xiurong Ren,Liping Chang.The roles of iron-based addtives on the formation of NH3and HCN during brown coal pyrolysis.中国科技论文在线

[21]Qi Chu,Jie Feng,Wenying Li,Kechang Xie.Synthesis of Ni/Mo/N catalyst and its application in benzene hydrogenation in the presence of thiophene.Chinese Journal of Catalysis,2013,34(1): 159-166

[22]Shujiao Zhang,Xiaohong Li,Jieying Jing,Hongxia Fan,Qian Wang,Wenying Li.Dehydrogenation of ethylbenzene with CO2 over Fe2O3/Al2O3-ZrO2 catalyst: influence of Fe2O3 content.Catalysis Communications,2013,34: (5-10)

[23]Jieying Jing,Jing Li,Jie Feng,Wenying Li,William W. Yu.Photodegradation of quinoline in water over magnetically separable Fe3O4/TiO2 composite Photocatalysts.Chemical Engineering Journal,2013,219: 355-360

[24]Yuncai Song,Jie Feng,Maosheng Ji,Tao Ding,Yuhong Qin,Wenying Li.Influence of biomass on energy and element utilization efficiency during co-gasification with coal.Fuel Processing Technology,2013,115: 42-49

[25]Jieying Jing,Jie Feng,Wenying Li,William W. Yu.Low-temperature synthesis of water-dispersible anatase titanium dioxide nanoparticles for photocatalysis.Journal of Colloid and Interface Science,2013,396: 90-94

[26]Jie Feng,Jun Li,Wenying Li.Influences of Chemical Structure and Physical Properties of Coal Macerals on Coal Liquefaction by Quantum Chemistry Calculation.Fuel Processing Technology,2013,109: 19-26

[27]Jie Feng,Yajing Ding,Yunpeng Guo,Xiaohong Li,Wenying Li.Calcination Temperature Effect on the Adsorption and Hydrogenated Dissociation of CO2 over the NiO/MgO Catalyst.Fuel,2013,109:110-115

[28]Qun Yi,Jie Feng,Bingchuan Lu,Jing Deng,Changlian Yu,Wenying Li.Energy evaluation for lignite pyrolysis by solid heat carrier coupled with gasification.Energy & Fuels,2013,27(8): 4523-4533

[29]Qun Yi,Yang Fan,Wenying Li,Jie Feng.CO2 capture and use in a novel coal-based polygeneration system.Industrial & Engineering Chemistry Research,2013,52(39): 14231-14240

[30]Cuiping Ye,Jie Feng,Huan Zheng,Tingting Wu,Mingming Fan,Wenying Li.Optimization of solvent crystallization process in obtaining high purity anthracene and carbazole from crude anthracene.AIChE Journal,2014,60(1):275-281

[31]Zhi-Jun Zuo,Le Wang,Yong-Jun Liu,Wei Huang.The effect of CuO–ZnO–Al2O3 catalyst structure on the ethanol synthesis from syngas.Catalysis Communications,2013,34:69-72

[32]Xiaodong Wang,Jing Yan,Wei Huang.Synthesis of b-oriented TS-1 zeolite membranes with high performance in the oxyfunctionalization of n-hexane.Thin Solid Films,2013,534:40-44

[33]Zhihua Gao,Lihua Yin,Qin Jia,Wei Huang.Liquid phase preparation of catalysts used in slurry reactors to synthesize dimethyl ether from syngas: Effect of heat treatment temperature.Indian Journal of Chemistry,2013,52A(05): 608-6013

[34]B. Wang,W. Huang and Y. Wen.The dehydration of methanol to dimethyl ether over a novel solid acid-base catalyst.Energy SourcesPart A: RecoveryUtilizationand Environmental Effects,2013,35(17): 1590-1596

[35]Zuo,Zhi-Jun,Shen,Chao-Feng,Tan,Peng-Jia.Ni based on dual-support Mg-Al mixed oxides and SBA-15 catalysts for dry reforming of methane.Catalysis Communications,2013,41: 132-135

[36]Shirui Yu,Wei Huang et al.Ethanol Synthesis from Synthesis Gas over Complexing Agent Modified Cu-ZnO/Al2O3 Prepared by Complete Liquid-Phase Technology.Energy SourcesPart A: RecoveryUtilizationand Environmental Effects,2013,35(10): 955-961

[37]Shirui Yu,Wei Huang et al.CO Hydrogenation for Alcohol over Cu-ZnO-Al2O3 Catalysts Prepared by Complete Liquid-Phase Technology and Sol-Gel Methods---A Comparative Study.Asian Journal of Chemistry,2013,25(12):()

[38]Zhi-jun Zuo,Le Wang,Pei-de Han,Wei Huang.Effect of surface hydroxyls on dimethyl ether synthesis over the γ-Al2O3 in liquid paraffin: a computational study.Journal of Molecular Modeling,2013,19(11):4959-4967

[39]Li,Zhong,Yan,Shao Wei,Fan,Hui.Enhancement of stability and activity of Cu/ZnO/Al2O3catalysts by microwave irradiation for liquid phase methanol synthesis.Fuel,2013,106:178-186

[40]Dong,Lian-ping,*Fan,Min-qiang,Yang,Hong-li.Separation performance of a cyclone column separator with complicated positive and negative cones.INTERNATIONAL JOURNAL OF MINERAL PROCESSING,2013,122,43-46

[41]Liu,Airong,Gao,Jianchuan,*Fan,Minqiang.Performance of an Air-Injected Water-Only Cyclone for the Separation of Fine Coal .International Journal of Coal Preparation and Utilization, 2013,33(5),218-224

[42]M.F. Li,F.G. ZengH.Z.Chang,B.S. Xu. W. Wang.Aggregate structure evolution of low-rank coals during pyrolysis by in-situ X-ray diffraction.International Journal of Coal Geology,2013,262:116-117

[43]He,Qingsong;Reap,Yue,Mohamed,Ibrahim,Ali,Maha,Hassan,Waseem,Zeng,Fangui.Assessment of Trace and Heavy Metal Distribution by Four Sequential Extraction Procedures in a Contaminated Soil.SOIL AND WATER RESEARCH,2013,(8):71-76

[44]He,Qingsong,Zeng,Fangui.Analysis of the application of coalfield geological information resources management based on GIS technology.VMEIT 2013 Applied Mechanics and Materials.2013,380-384, 4681-4685

[45]He,Qingsong,Zeng,Fangui.Survey and evaluation of coalfield geological exploration and coal resources based on remote sensing technology.VMEIT 2013 Applied Mechanics and Materials,2013,380-384, 3930-3933

[46]Mingliang ZHANG,Liang ZHI,Huaizhu LI,Wei ZHAO.Process integration of halogenation and oxidation for recovery and removal of phenols from high strength phenolic wastewater.Chemical Engineering Journal,2013,229,99–104

[47]Wang,Qi,Lv,Yongkang,Zhang,Rong.Treatment of cotton printing and dyeing wastewater by supercritical water oxidation.DESALINATION AND WATER TREATMENT,2013,51,37-39,7025-7035

[48]Lv,Yongkang,Yang,Jieyong,Liu,Yuxiang.Biodegradation of Ammonium by Suspended and Immobilized Cells of Acinetobacter sp.Y1.ASIAN JOURNAL OF CHEMISTRY,2013,25(13),7243-7246

[49]Wang,Chen,Lv,Yong-kang,Wang,Gui-Chang.Insight into the active phase of CO oxidation on Ni/Pt and NiO1 (-) (x)/Pt model catalysts from a first principles investigation.SURFACE SCIENCE,2013,614(1):30-37

[50]Wang,Qi,Lv,Yongkang,Zhang,Rong.Supercritical Water Oxidation kinetics of Textiles Dyeing Wastewater.2nd International Conference on ChemicalMaterial and Metallurgical Engineering (ICCMME 2012).2013,634-638,11,302-306

[51]Li,Simin,Lv,Yongkang,Zhao,Na.Research on Phthalic Acid Esters Removal and Its Health Risk Evaluation by Combined Process for Secondary Effluent of Wastewater Treatment Plant.SCIENTIFIC WORLD JOURNAL,2013

[52]WANG Chen,WEI Zi-Zhang,LÜ Yong-Kang,XING Bin,WANG Gui-Chang.Theoretical Investigation of Structure-Sensitivity of Styrene Epoxidation on Ag(111) and Ag(110) Surfaces.Acta Phys. Chim. Sin,2013,29(04):726-730

[53]Hui-Ling Fan,Ting Sun,Yan_Peng Zhao,Ju Shangguan,Jian-Ying Lin.Three-Dimensionally Ordered Macroporous Iron Oxide for Removal of H2S at Medium Temperatures.Environ. Sci. Technol,2013,47(9):4859-4865

[54]Hui-Ling Fan,Ju Shangguan,Li-Tong Liang,Chun-Hu Li,Jian-Ying Lin.A Comparative Study of the Effect of Clay Binders on Iron Oxide Sorbent in the High-temperature Removal of Hydrogen Sulfide.Process Safety and Environmental Protection,2013(91):235–243

[55]Ju Shangguan,Yousheng Zhao,Huiling Fan,Litong Liang,Fang Shen,Maoqian Miao.Desulfurization behavior of zinc oxide based sorbent modified by the combination of Al2O3and K2CO3.FUEL,2013,108,80-84

[56]蒲昭廷,米杰.Removal of organic sulfur in two coals in microwave and ultrasonic co-enhanced oxidative process.Advanced Materials Research,2013,781-784,923-926

[57]胡程程,米杰.The study of thermal decomposition kinetics of zinc oxide formation from zinc oxalate dihydrate.Journal of Thermal Analysis and Calorimetry,2013. 1-7

[58]Yonghui Bai,Pei Wang,Lunjing Yan,Changlong Liu,Fan Li,Kechang Xie.Effects of CO2 on gas evolution and char structure formation during lump coal pyrolysis at elevated pressures.Journal of Analytical and Applied Pyrolysis,2013,104,202–209

[59]Jie Dong,Zhu Cheng,Fan Li.PAHs emission from the pyrolysis of Western Chinese coal.Journal of Analytical and Applied Pyrolysis,2013,104,502–507

[60]Pei Wang,Wen Jian Zhu,Yong Hui Bai,Fan Li.An investigation of the structure and gasification reactivity of char.Applied Mechanics and Materials,2013,295–298,3110-3113

[61]Changlong Liu,Yonghui Bai,Lunjing Yan,Yongfei Zuo,Yulong Wang and Fan Li.Impact of alkaline oxide on coal ash fusion temperature.International Journalof OilGas and Coal Technology,Accepted.

[62]Runquan Yang,Huaifa Wang,Jianchao Liu.Jet flotation column system structure design and numerical simulation of two-phase flow.Advanced Materials Research,2013 (616-618): 655-661

[63]Zheng jiajun,Yuming Yi,Wenli Wang,Ke Guo,Jinghong Ma,Ruifeng Li.Synthesis of bi-phases composite zeolites MFZ and its hierarchical effects in isopropylbenzene catalytic cracking.Microporous and Mesoporous Materials,2013,171,44-52

[64]Tai Xiumei,Ma Jinghong,Du Zhiping.Synthesis of Thermoresponsive SiO2 Composite Modified by Nonionic Organosilicone Surfactant.Tenside Surfactants Detergents,2013,50( 4),245-248

[65]Tai Xiumei,Ma Jinghong,Du Zhiping.The facile preparation for temperature sensitive silica/PNIPAAm composite microspheres.Applied Surface Science,2013,268,489-495

[66]Tai Xiumei,Ma Jinghong,Du Zhiping.A simple method for synthesis of thermal responsive silica nanoparticle/PNIPAAm hybrids.Powder Technology,233,47-51,2013

[67]Xiaoyan Wang,DahaiPan,MinGuo,MinHe,PengyuNiu,RuifengLi.Facile synthesis of highly ordered mesoporous alumina with high thermal and hydrothermal stability using zirconia as promoter.Materials Letters,2013,97,27-30

[68]Liu Zhiping,Fan Weiming,Xue Zhaoteng,Ma Jinghong,Li Ruifeng.Diffusion of n-alkanes in mesoporous 5A zeolites by ZLC method.Adsorption,2013,19(1):201-208

[69]Ma Jinghong,Kang Yuhong,Ma Ning.A high acid mesoporous USY zeolite prepared by alumination.Materials Science,2013,31(1):19-24

[70]Xiufang Liu,Binbin Fan,Shengcheng Gao,Ruifeng Li.Transesterification of tributyrin with methanol over MgAl mixed oxides derived from MgAl hydrotalcites synthesized in the presence of glucose.Fuel Processing Technology,2013,106,761-768

[71]Mingming Liu,Binbin Fan,Xiufeng Shi,Ruifeng Li.Ru/ZIF-8 with a chiral modifier for asymmetric hydrogenation of acetophenone.Catalysis Communications,2013,42,20-24

[72]Yan Wang,Wenli Wang,Yuexian Chen,Jinghong Ma,Jiajun Zheng,Ruifeng Li.Core-shell catalyst CuO-ZnO-Al2O3@Al2O3 for dimethyl ether synthesis from syngas.Chemistry Letters,2013,42,335-337

[73]Yu Feng,Guo Min,Wang Xu,Pan Dahai,Li Rui-feng.Synthesis of Well-ordered SO42-/ZrO2-SiO2 Materials in Bi-acid System.Journal of Fuel Chemistry and Technology,2013,41(4): 456-462

[74]Yan Wang,Wenli Wang,Yuexian Chen,Jiajun Zheng,Ruifeng Li.Synthesis of dimethyl ether from syngas using a hierarchically porous composite zeolite as the methanol dehydration catalyst.Journal of Fuel Chemistry and Technology,2013,41,875-882

[75]Lixia Ling,Riguang Zhang,Peide Han,Baojun Wang*.DFT study on the sulfurization mechanism during the desulfurization of H2S on the ZnO desulfurizer.Fuel Processing Technology,2013,106: 222-230

[76]Lixia Ling,Peide Han,Baojun Wang*,Riguang Zhang.DFT study on the regeneration mechanism of ZnO surface during the desulfurization of H2S.Fuel Processing Technology,2013,109: 49-56

[77]Jiajia Song,Xiaoqi Niu,Lixia Ling,Baojun Wang*.A density functional theory study on the interaction mechanism between H2S and the α-Fe2O3(0001) surface.Fuel Processing Technology,2013,115: 26-33

[78]Jingrui Li,Riguang Zhang,Baojun Wang∗.Influence of the hydroxylation of γ-Al2O3surfaces on the stability and growth of Cu for Cu/γ-Al2O3catalyst: A DFT study.Applied Surface Science,2013,270: 728-736

[79]Xuancheng Sun,Riguang Zhang,Baojun Wang∗.Insights into the preference of CHx(x = 1-3) formation from CO hydrogenation on Cu(111) surface.Applied Surface Science,2013,265: 720-730

[80]Riguang Zhang,Xuancheng Sun,Baojun Wang∗.Insight into the preference mechanism ofCHx(x=1-3)andC–Cchain formation involved in C2oxygenates formation fromsyngas on Cu(110) surface.Journal of Physical Chemistry C,2013,117(13): 6594-6609

[81]Riguang Zhang,Jingrui Li,Baojun Wang∗.The effect of Si/Al ratios on the catalytic activity of CuY zeolites for DMC synthesis by oxidative carbonylation of methanol: A theoretical study.RSC Advances,2013,3: 12287-12298

[82]Riguang Zhang,Jingrui Li,Baojun Wang,∗Lixia Ling.Fundamental studies about the interaction of water with perfect,oxygen-vacancy and pre-covered oxygen Cu2O(111) surfaces: thermochemistry,barrier,product.Applied Surface Science,2013,279: 260-271

[83]Riguang Zhang,Guiru Wang,Baojun Wang∗.Insights into the mechanism of ethanol formation from syngas on Cuand an expanded prediction of improved Cu-based catalysts.Journal of Catalysis,2013,305: 238-255

[84]Guiru Wang,Riguang Zhang,Baojun Wang∗.Insight into the preference mechanism for C-C chain formation of C2oxygenates and the effect of promoters in syngas conversion overCu-based catalysts.Applied Catalysis A: General,2013,466: 77– 89

[85]Hongyan Liu,Baojun Wang∗,Maohong Fan,Neil Henson,Yulong Zhang,Brian Francis Towler,H. Gordon Harris.Study on carbon deposition associated with catalytic CH4reforming by using density functional theory.Fuel,2013,113: 712–718

[86]Jianbing Wu,Tong Zhang,Guozhang Ma,Ping Li,Lixia Ling,Baojun Wang∗.Synthesis of a Tung Oil–Rosin Adduct via the Diels–Alder Reaction: Reaction Mechanism and Properties in an Ultraviolet-Curable Adhesive.Journal of Applied polymer Science,2013,130(6): 4201-4208

[87]Jianbing Wu,Junbao Xie,Lixia Ling,Guozhang Ma,Baojun Wang∗.Surface modification of nanosilica with 3-mercaptopropyl trimethoxysilane and investigation of its effect on the properties of UV curable coatings.Journal of Coatings Technology and Research,2013,10(6): 849-857

[88]Lixia Ling,Peide Han,Baojun Wang∗,Riguang Zhang.Theoretical prediction of simultaneous removal efficiency of ZnO for H2S and Hg0in coal gas.Chemical Engineering Journal,2013,231: 388-396

[89]Fengbo Guo,Yongfa Zhang,Guojie Zhang,Haixiang Zhao.Syngas production by carbon dioxide reforming of methane over different semi-cokes.Journal of Power Sources2013,231:82-90

[90]Ying Xu,Yongfa Zhang,Guojie Zhang,Lei Chen.Evolution characteristics of gaseous products during low-temperature pyrolysis of lignite.Journal of Analytical and Applied Pyrolysis,2013,104: 625–631

[91]Haizhu Cheng,Yongfa Zhang,Guojie Zhang,Sufang Song.Experimental Research and Numerical Simulation of Coal Char-Catalyzed CO2Reforming of CH4.Asian Journal of Chemistry,2013,25(6): 3179-3186

[92]Xu Ying,Zhang Yongfa,Wang Yong,Zhang Guojie,Chen,Lei.Thermogravimetric study of the kinetics and characteristics of the pyrolysis of lignite.REACTION KINETICS MECHANISMS AND CATALYSIS,2013,110( 1): 225-235

[93]Ding Xiaokuo,Zhang Yongfa,Zhang Tiankai.Effect of operational variables on the hydrogasification of Inner Mongolian lignite semi-coke.Energy & Fuels,2013,27 (8):4589–4597

[94]Ying Xu,Guojie Zhang,Lei Chen,Xiaokuo Ding and Yongfa Zhang.Pyrolysis Products Properties from Lignite.Asian Journal of Chemistry,2013,25(9): 4828-4832

[95]Guojie Zhang,Yannian Du,Yongfa Zhang and Ying Xu.Analyses and the Study of Syngas Production in Dual-Gas Resources Polygeneration.Asian Journal of Chemistry,2013,25(13):7287 -7289

[96]Guojie Zhang,Yannian Du,Ying Xu,Xiaoling Shi.Syngas production by carbon dioxide reforming methane over carbonaceous catalyst and reaction kinetics of carbonaceous materials.Research Journal of Chemistry and Environment,2013,17(10):11-15

[97]Ying Xu,Yong Wang,Yongfa,Zhang,Guojie Zhang,Xianglan Li.The pyrolysis characteristics of low ash lignite.Applied Mechanics and Materials,2013,291-294 :755-758

[98]Ding Xiaokuo,Zhang Tiankai,Zhang Yongfa.Hydrogasification of low-oxygen semi-coke to produce methane by consuming less hydrogen.Applied Mechanics and Materials,2013,316,124-127

[99]Taojun Lu,Yongfa Zhang.Component characteristic of lignite semi-coke hydrogasification residue.Applied Mechanics and Materials,2013,316-317:153-156

[100] Zhenzhen Li,Guoqiang Li,Yongfa zhang.Determination of thiocyanate in Desulfurization Waste Solution by spectrophotometry.Advances in Chemical.Material and Metallurgical Engineering,2013,634-638:209-212

2013中文期刊

[1] 郑华艳,郭天玉,李忠,孟凡会,秦瑶.浸渍顺序对CuCe/AC催化剂结构和性能的影响.无机化学学报,2013,29: 2575-2581

[2] 郑华艳,刘媛媛,董睿敏,孟凡会李忠.H2O对Cu+/S2O82-/γ-Al2O3催化剂合成碳酸二甲酯性能的影响.燃料化学学报,2013,41: 110-115

[3] 王佳臻,郑华艳,秦瑶,阎立飞,李忠.还原处理对CuY催化剂微观结构及甲醇氧化羰基化活性的影响.天然气化工(C1化学与化工),2013,38: 37-41

[4] 闫少伟,范辉,于智慧,梁川,李忠孟凡敬.二硝基甲苯加氢制甲苯二胺催化剂的研究进展.化工进展,2013,32: 320-326

[5] 陈雄,郑华艳,杨浩,李忠.CO2对CuO/ZnO/Al2O3催化剂前体老化及催化性能的影响.化工进展,2013,32: 2644-2649+2660

[6] 孟凡会,秦瑶,郑华艳,王佳臻,徐腈蔓,李忠.Cu/AC催化剂制备方法对气相甲醇氧化羰基化的影响.太原理工大学学报,2013,44(4): 409-413

[7] 刘军,孟凡会,钟朋展,吉可明,李忠.载体织构对Ni-Fe/γ-Al2O3催化剂结构和甲烷化活性的影响.天然气化工(C1化学与化工),2013,38(4): 6-10

[8] 钟朋展,孟凡会,崔晓曦,刘军,李忠.镍盐前体对Ni-Fe/γ-Al2O3催化剂甲烷化性能的影响.化工进展,2013,32(8): 1845-1848

[9] 孟凡会,钟朋展,李忠.煤制天然气Ni基催化剂浆态床甲烷化性能研究.山西煤炭,2013,33(7): 37-39

[10]栗少卿,张泳建,孟凡会,李忠,冯永发,盛团秀,王东飞.基于Aspen Plus对F-T合成油尾气蒸汽重整的模拟及优化.太原理工大学学报,2013,44(3): 288-292

[11]张泳建,李忠,孟凡会,郑华艳.低温甲醇净化合成油尾气重整气的模拟分析.过程工程学报,2013,13(2): 264-269

[12]庞小文,孟凡会,卢建军,邹佩良,李忠.甲醇制汽油工艺及催化剂制备的研究进展.化工进展,2013,32(5): 1014-1019

[13]董连平,樊民强,杨宏丽,刘爱荣.基于广义偏斜正态分布的分配曲线数学模型.煤炭学报,2013,10,1856-1861

[14]武彦林,樊民强.高泥化难浮煤泥重选试验研究.煤炭科学技术.2013,12,113-116

[15]田娟,樊民强.磁铁矿磁性物含量与TFe品位关系的数学模型.中国矿业,2013,10,105-108

[16]杨晓锋,樊民强.新型粗煤泥两段旋流器分选试验研究.煤炭科学技术,2013,S2:373-375+378

[17]闫培培,张兴芳,樊民强.种包含偏斜系数的粒度特性方程.中国粉体技术,2013,03:58-61

[18]李晓栋,张兴芳,樊民强.基于广义Logistic分布的选煤分级曲线数学模型.太原理工大学学报,2013,03:366-369

[19]毛艳宇,闫培培,李晓栋,杨晓锋,田娟,樊民强.三产品煤泥分选分级机处理浮选尾煤的试验研究.选煤技术,2013,02:28-30+34

[20]马亭亭,刘世超,樊民强.电磁场对重介质旋流器分选密度的影响.选煤技术,2013,01:5-8

[21]田娟,樊民强.太钢尖山铁矿磁选精矿旋流器精选试验.金属矿山,2013,02:68-71

[22]杨宏丽,樊民强.一种静态分级装置的流场模拟与优化.太原理工大学学报,2013,01:24-28

[23]相建华,曾凡桂*,李彬,张莉,李美芬,梁虎珍.成庄无烟煤大分子结构模型及其分子模拟.燃料化学学报,2013,41(4):391-399

[24]梁虎珍,曾凡桂*,孙蓓蕾,李美芬.伊敏褐煤和腐殖酸中稀土元素的地球化学特征差异分析.煤炭学报,2013,38(7):1234-1241

[25]梁虎珍,曾凡桂*,李美芬,相建华.镧系收缩效应对稀土-煤相互作用的影响及煤中有机态稀土的赋存形式.燃料化学学报,2013,9(41):1030-1040

[26]梁虎珍,曾凡桂*,相建华,李美芬.伊敏褐煤中微量元素的地球化学特征及其无机-有机亲和性分析.燃料化学学报,2013,10(41):1173-1183

[27]崔秀琦,孙蓓蕾,樊金云,王志民,贾宏伟,柳玉杰,郝胜发,曾凡桂*.大杨树盆地中部九峰山组上段沉积环境及聚煤模式.煤炭学报,2013,38 (2):416-422

[28]孙蓓蕾,曾凡桂*,李 霞,刘超.太原西山煤田西铭-杜儿坪矿区煤级定型时间:来自锆石裂变径迹年代学的证据.煤炭学报,2013,38(11):2023-2029

[29]何青松,石艳玲,宋群会,曾凡桂.用大功率长偏移距瞬变电磁测深圈定深层碳酸盐岩储层.地质与勘探,2013,49(4):731-736

[30]智良,张明亮,李怀柱,赵炜.高浓度含酚废水中酚类的转化回收和脱除.应用化学,2013,30(11):1333-1337

[31]刘泉,任军,秦志峰,苗茂谦,李忠.水凝胶法制备Ni/ZrO2催化剂及催化CO2加氢甲烷化性能.高等学校化学学报,2013,34 (9): 2171-2177

[32]任军,郭长江,杨雷雷,李忠.Synthesis of dimethyl carbonate over starch-based carbon-supported Cu nanoparticles catalysts.催化学报,2013,34(9): 1734-1744

[33]任军,王冬蕾,裴永丽,秦志峰,林建英,李忠.助剂含量对CuLi/AC催化剂结构及其甲醇氧化羰基化反应性能的影响.高等学校化学学报,2013,34 (11): 2594-2600

[34]芦晓芳,任秀蓉,王海堂,肖雨,常丽萍.焙烧温度对Fe-Mn基吸附剂中高温煤气脱硫性能的影响及其作用机理.煤炭学报,2013,38(4): 668-674

[35]胡江亮,孙天军,任新宇,常丽萍,王树东.ZIF-8吸收剂上CH4/N2的吸附分离性能与热力学性质.燃料化学学报,2013,41(6): 754-760

[36]张晋玲,王美君,陈望舒,付春慧,任秀蓉,常丽萍.逐级酸处理对锡盟褐煤的结构及热解特性的影响:气相产物的生成.燃料化学学报,2013,41(10): 1160-1165

[37]常晋豫,廖俊杰,张艳军,范利君,马琳,鲍卫仁,常丽萍.铈离子改性Y型分子筛吸附剂对苯中噻吩动态吸附及其主要影响因素的研究.燃料化学学报,2013,41(9): 1092-1096

[38]郝艳红,冯杰,易群,李文英.典型煤基动力系统的3E分析.中国电机工程学报,2013,33(14): 51-58

[39]易群,吴彦丽,范洋,胡长淳,褚琦,冯杰,李文英,焦炉煤气-甲醇产业链延伸技术方案的经济分析.化工学报,网络优先出版,2014

[40]邓靖、李文英、李晓红、喻长连、冯杰、郭晓汾.橄榄石基固体热载体影响褐煤热解产物分布的分析.燃料化学学报,2013,41(8):937-942

[41]刘妙青,卢建军,林立,黄伟.反相非水乳液制备多孔聚酰亚胺微球.高分子学报,2013,(9):1226-1234

[42]郭宁宁,黄伟.间甲酚与对甲酚的分离研究进展.天然气化工(C1化学与化工),2013,38:84-89

[43]樊金串,杨瑞卿,赵杰,黄伟.液体石蜡体系中含铜物种的化学变化.应用化学,2013,30(1):67-72

[44]高晓霞,王晓东,黄伟.甲醇制汽油催化剂研究进展.功能材料,2013,44(10): 1369-1374

[45]喻仕瑞,高志华,栾春晖,王晓东,高珊珊,黄伟.液相合成甲醇催化剂稳定性的改进.天然气化工(C1化学与化工),2013,38(4):15-18

[46]王鹏,黄伟,唐钰,孙凯,张小雨.完全液相制备中醇溶剂及醇用量对二甲醚合成催化剂结构和性能的影响.太原理工大学学报,2013,44(5):551-556

[47]程凯,高志华,郝树宏,黄伟.高压热处理对CuZnAl浆状催化剂结构和性能的影响.化工进展,2013,32(增刊):140-144

[48]刘妙青,卢建军,林立,黄伟.反相非水乳液制备多孔聚酰亚胺微球.高分子化学,2013,9:1226-1234

[49]刘生昕,樊惠玲,孙 婷,陈兆辉,上官炬,梁丽彤.氢对氧化铁脱硫剂脱硫行为的影响.煤炭学报,2013,38(1):156-160

[50]杨晓旸,樊惠玲,王小玲,贺恩云.多孔材料吸附脱硫研究进展.天然气化工(C1化学),2013,38(04):85-89

[51]李祥珍,王晓钟等.介孔材料Al-SBA-15的合成研究进展.化工进展,2013,32(7):1555

[52]孔娇,程柱,董洁,焦海丽,李凡.平朔煤热解过程中PAHs的释放特性.燃料化学学报,2013,41(11):1281-1286

[53]杨润全,王怀法.宽粒级煤泥浮选机流场数值模拟研究.煤炭学报,2013,38 (4): 657-661.

[54]徐虎彪,王成师,杨润全,王怀法.煤颗粒密度和粒度及浓度对浮选效果的影响研究.选煤技术,2013 (1) : 1-4,8

[55]张理成,杨润全,王怀法.XY型矿浆预处理器内部流场数值模拟研究.煤炭科学技术,2013,41 (S2): 396-397,399

[56]王泓皓,杨润全,王怀法.宽粒级煤泥浮选机浮选试验研究.煤炭工程,2013 (09): 112-115

[57]刘秀芳,范彬彬,高升成,李瑞丰.C/MgAl水滑石复合材料为前驱物所制催化剂在柠檬醛-丙酮缩合反应中的催化性能.无机化学学报,2013,29(2): 345-349

[58]王鹏,薛招腾,马静红,亢玉红,李瑞丰.键阻断原理构建中孔A型沸石.无机化学学报, 2013,29 (9):1777-1786

[59]张建功,贺敏,范彬彬,李瑞丰.MIL-101 (Cr)在H2O2氧化环己烷反应中的催化性能.石油学报(石油加工),2013,29(2):238-242

[60]王文丽,王琰,陈月仙,赵文超,李瑞丰.合成气一步法制备二甲醚核壳结构催化剂的制备及其反应性能.燃料化学学报,2013,41,1003-1009

[61]吴建兵,凌丽霞,马国章,王宝俊∗.巯基-乙烯基点击反应在紫外光固化过程中的应用.高分子材料科学与工程,2013,29(10): 169-174.

[62]陈磊,张永发,刘俊,王影,徐英,王永.低阶煤低温干馏高效采油技术研究进展.化工进展,2013,32(10):2343-2351

[63]崔新涛,李香兰,张永发.气相色谱分析褐煤提质低温热解气中含硫化合物的研究.分析仪器,2013,(1):20-24

[64]韩洁茹,常丽萍,王建成,韩丽娜,鲍卫仁.煤气脱汞剂的研究进展.洁净煤技术,2013,19(02): 24-28

[65]杨云龙,刘晓,景晓霞,李志强,常丽萍.干燥时间对褐煤孔结构变化及其复吸行为的影响.太原理工大学学报,2013,44(4): 417-421

[66]葛晓华,苏旭东,袁进,常丽萍.工业领域碳足迹研究进展.生态经济,2013(5):120-125

[67]张玉龙,王俊峰,王涌宇,常丽萍,李争峰.环境条件对煤自燃复合指标气体分析的影响.中国煤炭,2013(9): 82-86

[68]冯刚,朱自平,谷红兵,王建成.热等离子裂解甲烷制备纳米碳纤维.太原理工大学学报,2013,44(4): 440-443

[69]吴晶,程可可,李文英,冯杰,张建安.乙酸、糠醛和5-羟甲基糠醛对产酸克雷伯氏菌发酵生产2,3-丁二醇的影响.生物工程学报,2013,29(3): 350-357

[70]叶翠平,郑环,吴亭亭,樊明明,冯杰,李文英,溶剂结晶法用于蒽渣精制咔唑研究.煤炭转化,2013,36(1):83-88

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