点击下载:《工程科学学报》:煤基活性炭改性及其甲烷吸附能力
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8 工程科学学报,第44卷,第X期 [7]Zhao J Y,Zhang Y L,Deng J,et al.Key functional groups 酮蒸汽的吸附.清华大学学报(自然科学版),2000,40(10):111) affecting the release of gaseous products during spontaneous [18]Zhang X B,Huan X,Zhang H,et al.Microstructure and methane combustion of coal.Chin J Eng,2020,42(9):1139 adsorption of coal-based activated carbons with different coal body (赵婧显,张永利,邓军,等.影响煤自燃气体产物释放的主要活 structures.J China Univ Min Technol,2017,46(1):155 性官能团.工程科学学报,2020,42(9):1139) (张小兵,郇璇,张航,等.不同煤体结构煤基活性炭微观结构与 [8]Huan X,Zhang X B,Wei H W.Research on parameters of 甲烷吸附性能.中国矿业大学学报,2017,46(1):155) adsorption potential via methane adsorption of different types of [19]Kong J,Lin B Q,Zhu C J,et al.Research on surface and pore coal.J China Coal Soc,2015,40(8):1859 structure properties of modified coal activated carbon.Coal (郇璇,张小兵,韦欢文.基于不同类型煤吸附甲烷的吸附势重 Technol,,2016,35(8):191 要参数探讨.煤炭学报,2015,40(8):1859) (孔佳,林柏泉,朱传杰,等.改性煤基活性炭表面形貌及孔隙结 [9] Yoshizawa N,Yamada Y,Furuta T,et al.Coal-based activated 构特性.煤炭技术,2016,35(8):191) carbons prepared with organometallics and their mesoporous [20]Shan X M,Zhang WH,Du M H,et al.Effect of wet oxidation and structure.Energy Fuels,1997,11(2):327 heat-treatment on the SO2 adsorption capacity for coal-based [10]Huang L H,Hua J.Effect of surface property of activated carbon activated carbon./China Coal Soc,2004,29(2):208 on denitration and sulfur resistance performance of supported (单晓梅,张文辉,杜铭华,等,湿氧化和热处理对煤基活性炭吸 cerium based catalyst.J Funct Mater,2020,51(12):12174 附S0,的影响.煤炭学报,2004,29(2):208) (黄利华,华坚.活性炭表面性能对负载的铈基催化剂脱硝性能 [21]Contreras M,Lagos G,Escalona N,et al.On the methane 和抗硫性能的影响.功能材料,2020,51(12):12174) adsorption capacity of activated carbons:In search of a correlation [11]Li Y,Li X Y,Lu Z L,et al.Removal of elemental mercury from with adsorbent properties.J Chem Technol Biotechnol,2009, flue gas by modified coal-based activated carbon.J Eng 84(11):1736 Thermophys,2020,41(4):1035 [22]Zhang Y C,Fu HH,Wang F J,et al.Influence of pore structure of (李扬,李向阳,鲁子龙,等.改性煤基活性炭对燃煤烟气中汞的 coal-based activated carbon on separation of low-concentration 脱除.工程热物理学报,2020,41(4):1035) gas.SafCoal Mines,2020,51(12):23 [12]Tang J W.Shi X L.Zhang C H,et al.Enhanced adsorption (张亚潮,付航航,王福军,等,基于煤基活性炭孔隙结构的矿井 treatment of landfill leachate using coal-based activated carbon 低浓度瓦斯吸附分离影响研究.煤矿安全,2020,51(12):23) modified by nitric acid.J Min Sci Technol,2019,4(3):269 [23]Feng YY,Huang LH,Chu W.Surface modification of coal-based (唐佳伟,师学璐,张春晖,等.硝酸改性煤基活性炭吸附处理垃 activated carbon and its effects on methane adsorption.J China 圾渗滤液.矿业科学学报,2019,4(3):269) Coal Soc,,2011,36(12):2080 [13]Xie Q,Li L T,Li J,et al.Surface modification of activated carbon (冯艳艳,黄利宏,储伟.表面改性对煤基活性炭及其甲烷吸附 by low temperature oxygen/nitrogen plasma.J China Univ Min 性能的影响.煤炭学报,2011,36(12):2080) Technol,2005,34(6):688 [24]Ma D M,Li L X,Li X P,et al.Contrastive experiment of (解强,李兰亭,李静,等,活性炭低温氧/氨等离子体表面改性的 adsorption-desorption between CH4 and CO2 in Coal Seam 4 of 研究.中国矿业大学学报,2005,34(6):688) Dafosi Coal Mine.J China Coal Soc,2014,39(9):1938 [14]Qiu J S.Application of low temperature plasma in surface (马东民,李来新,李小平,等.大佛寺井田4号煤CH4与C02吸附 treatment of carbon materials.New Carbon Mater,2001,16(3): 解吸实验比较.煤炭学报,2014,39(9):1938) 58 [25]Li X W,Ma X,Zhu P F,et al.Characteristics of coal (邱介山.低温等离子体技术在炭材料改性方面的应用.新型炭 physicochemical structure and its effect on thermodynamic of gas 材料,2001,16(3):58) adsorption.SafCoal Mines,2021,52(3):1 [15]Xie Q.Zhang XL Liang D C,et al.Directional preparation of (李晓文,马旭,朱鹏飞,等.煤体理化结构特征及其对瓦斯吸附 coal-based activated carbon:Principles,approaches and 热力学的彩响.煤矿安全,2021,52(3):1) applications.Coal Sci Technol,2021,49(1):100 [26]Zhang Z Q,Zhang Y P.Method of calculating the thermodynamic (解强,张香兰,梁鼎成,等.煤基活性炭定向制备:原理方法应 parametres from some isothermal absorption models.J Nortlwest 用.煤炭科学技术,2021,49(1):100) 4 gric Univ,1998,26(2):99 [16]Chen J P,Wu S.Acid/Base-treated activated carbons: (张增强,张一平.几个吸附等温模型热力学参数的计算方法, Characterization of functional groups and metal adsorptive 西北农业大学学报,1998,26(2):99) properties.Langmuir,2004,20(6):2233 [27]Huan X.Activated Carbon was Prepared by Coal and the Effect of [17]Huang Z H,Kang F Y,Wu H,et al.Adsorption of benzene and Surface Modification on Methane Adsorption [Dissertation]. methyl ethyl ketone vapors at low concentration by wet oxidized Jiaozuo:Henan Polytechnic University,2015 porous carbons.J Tsinghua Univ (Sci Technol),2000,40(10):111 (郇璇.煤改制活性炭及表面改性对甲烷吸附的影响[学位论 (黄正宏,康飞宇,吴慧,等.湿氧化改性多孔炭对低浓度苯和丁 文1焦作:河南理工大学,2015)Zhao  J  Y,  Zhang  Y  L,  Deng  J,  et  al.  Key  functional  groups affecting  the  release  of  gaseous  products  during  spontaneous combustion of coal. Chin J Eng, 2020, 42(9): 1139 (赵婧昱, 张永利, 邓军, 等. 影响煤自燃气体产物释放的主要活 性官能团. 工程科学学报, 2020, 42(9):1139) [7] Huan  X,  Zhang  X  B,  Wei  H  W.  Research  on  parameters  of adsorption  potential via methane  adsorption  of  different  types  of coal. J China Coal Soc, 2015, 40(8): 1859 (郇璇, 张小兵, 韦欢文. 基于不同类型煤吸附甲烷的吸附势重 要参数探讨. 煤炭学报, 2015, 40(8):1859) [8] Yoshizawa  N,  Yamada  Y,  Furuta  T,  et  al.  Coal-based  activated carbons  prepared  with  organometallics  and  their  mesoporous structure. Energy Fuels, 1997, 11(2): 327 [9] Huang L H, Hua J. Effect of surface property of activated carbon on  denitration  and  sulfur  resistance  performance  of  supported cerium based catalyst. J Funct Mater, 2020, 51(12): 12174 (黄利华, 华坚. 活性炭表面性能对负载的铈基催化剂脱硝性能 和抗硫性能的影响. 功能材料, 2020, 51(12):12174) [10] Li Y, Li X Y, Lu Z L, et al. Removal of elemental mercury from flue  gas  by  modified  coal-based  activated  carbon. J Eng Thermophys, 2020, 41(4): 1035 (李扬, 李向阳, 鲁子龙, 等. 改性煤基活性炭对燃煤烟气中汞的 脱除. 工程热物理学报, 2020, 41(4):1035) [11] Tang  J  W,  Shi  X  L,  Zhang  C  H,  et  al.  Enhanced  adsorption treatment  of  landfill  leachate  using  coal-based  activated  carbon modified by nitric acid. J Min Sci Technol, 2019, 4(3): 269 (唐佳伟, 师学璐, 张春晖, 等. 硝酸改性煤基活性炭吸附处理垃 圾渗滤液. 矿业科学学报, 2019, 4(3):269) [12] Xie Q, Li L T, Li J, et al. Surface modification of activated carbon by  low  temperature  oxygen/nitrogen  plasma. J China Univ Min Technol, 2005, 34(6): 688 (解强, 李兰亭, 李静, 等. 活性炭低温氧/氮等离子体表面改性的 研究. 中国矿业大学学报, 2005, 34(6):688) [13] Qiu  J  S.  Application  of  low  temperature  plasma  in  surface treatment  of  carbon  materials. New Carbon Mater,  2001,  16(3): 58 (邱介山. 低温等离子体技术在炭材料改性方面的应用. 新型炭 材料, 2001, 16(3):58) [14] Xie  Q,  Zhang  X  L,  Liang  D  C,  et  al.  Directional  preparation  of coal-based  activated  carbon:  Principles,  approaches  and applications. Coal Sci Technol, 2021, 49(1): 100 (解强, 张香兰, 梁鼎成, 等. 煤基活性炭定向制备: 原理·方法·应 用. 煤炭科学技术, 2021, 49(1):100) [15] Chen  J  P,  Wu  S.  Acid/Base-treated  activated  carbons: Characterization  of  functional  groups  and  metal  adsorptive properties. Langmuir, 2004, 20(6): 2233 [16] Huang Z H, Kang F Y, Wu H, et al. Adsorption of benzene and methyl ethyl ketone vapors at low concentration by wet oxidized porous carbons. J Tsinghua Univ (Sci Technol), 2000, 40(10): 111 (黄正宏, 康飞宇, 吴慧, 等. 湿氧化改性多孔炭对低浓度苯和丁 [17] 酮蒸汽的吸附. 清华大学学报 (自然科学版), 2000, 40(10):111) Zhang X B, Huan X, Zhang H, et al. Microstructure and methane adsorption of coal-based activated carbons with different coal body structures. J China Univ Min Technol, 2017, 46(1): 155 (张小兵, 郇璇, 张航, 等. 不同煤体结构煤基活性炭微观结构与 甲烷吸附性能. 中国矿业大学学报, 2017, 46(1):155) [18] Kong  J,  Lin  B  Q,  Zhu  C  J,  et  al.  Research  on  surface  and  pore structure  properties  of  modified  coal  activated  carbon. Coal Technol, 2016, 35(8): 191 (孔佳, 林柏泉, 朱传杰, 等. 改性煤基活性炭表面形貌及孔隙结 构特性. 煤炭技术, 2016, 35(8):191) [19] Shan X M, Zhang W H, Du M H, et al. Effect of wet oxidation and heat-treatment  on  the  SO2 adsorption  capacity  for  coal-based activated carbon. J China Coal Soc, 2004, 29(2): 208 (单晓梅, 张文辉, 杜铭华, 等. 湿氧化和热处理对煤基活性炭吸 附SO2的影响. 煤炭学报, 2004, 29(2):208) [20] Contreras  M,  Lagos  G,  Escalona  N,  et  al.  On  the  methane adsorption capacity of activated carbons: In search of a correlation with  adsorbent  properties. J Chem Technol Biotechnol,  2009, 84(11): 1736 [21] Zhang Y C, Fu H H, Wang F J, et al. Influence of pore structure of coal-based  activated  carbon  on  separation  of  low-concentration gas. Saf Coal Mines, 2020, 51(12): 23 (张亚潮, 付航航, 王福军, 等. 基于煤基活性炭孔隙结构的矿井 低浓度瓦斯吸附分离影响研究. 煤矿安全, 2020, 51(12):23) [22] Feng Y Y, Huang L H, Chu W. Surface modification of coal-based activated  carbon  and  its  effects  on  methane  adsorption. J China Coal Soc, 2011, 36(12): 2080 (冯艳艳, 黄利宏, 储伟. 表面改性对煤基活性炭及其甲烷吸附 性能的影响. 煤炭学报, 2011, 36(12):2080) [23] Ma  D  M,  Li  L  X,  Li  X  P,  et  al.  Contrastive  experiment  of adsorption-desorption  between  CH4  and  CO2  in  Coal  Seam  4  of Dafosi Coal Mine. J China Coal Soc, 2014, 39(9): 1938 (马东民, 李来新, 李小平, 等. 大佛寺井田4号煤CH4与CO2吸附 解吸实验比较. 煤炭学报, 2014, 39(9):1938) [24] Li  X  W,  Ma  X,  Zhu  P  F,  et  al.  Characteristics  of  coal physicochemical structure and its effect on thermodynamic of gas adsorption. Saf Coal Mines, 2021, 52(3): 1 (李晓文, 马旭, 朱鹏飞, 等. 煤体理化结构特征及其对瓦斯吸附 热力学的影响. 煤矿安全, 2021, 52(3):1) [25] Zhang Z Q, Zhang Y P. Method of calculating the thermodynamic parametres from some isothermal absorption models. J Northwest Agric Univ, 1998, 26(2): 99 (张增强, 张一平. 几个吸附等温模型热力学参数的计算方法. 西北农业大学学报, 1998, 26(2):99) [26] Huan X. Activated Carbon was Prepared by Coal and the Effect of Surface Modification on Methane Adsorption [Dissertation]. Jiaozuo: Henan Polytechnic University, 2015 ( 郇璇. 煤改制活性炭及表面改性对甲烷吸附的影响[学位论 文]. 焦作: 河南理工大学, 2015) [27] · 8 · 工程科学学报,第 44 卷,第 X 期
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