2013年发表的期刊论文
发布日期:2014-01-17 浏览量:次
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 Forum,Energy 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 Forum,Energy 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 Sources,Part A: Recovery,Utilization,and 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 Sources,Part A: Recovery,Utilization,and 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. Zeng*,H.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 Chemical,Material 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 Oil,Gas 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 Sources,2013,231:82-90
[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
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