收稿日期: 2013-08-15
修回日期: 2013-10-28
网络出版日期: 2014-05-10
基金资助
国家自然科学基金重点项目(编号:U13612031);国家科技重大专项项目(编号:2011ZX04034-04;2011ZX04042-0102);山西省煤层气联合基金研究项目(编号:2012012001)联合资助.
Study on Supercritical Isothermal Adsorption Model of Methane in Coal
Received date: 2013-08-15
Revised date: 2013-10-28
Online published: 2014-05-10
为了从数学模型上深入了解煤层气在煤中吸附的物理机理,利用参数具有物理意义的吸附模型,如Langmuir、Freundlich、Toth、Langmuir-Freundlich、扩展的Langmuir、BET、D-R、D-A模型,分别对3个不同煤级样品的空气干燥基和干燥无灰基甲烷等温吸附数据进行拟合,对BET模型、D-R模型、D-A模型中涉及的p0,采用虚拟饱和蒸气压的概念,用3种方法计算。通过对模型参数拟合值的分析,比较了空气干燥基和干燥无灰基煤的吸附特征,对微观吸附机理进行了解释。比较了各模型对单煤级和3个煤级作为整体的拟合效果,认为B-BET-1模型、B-BET-2模型对于3个煤级样品均没有物理意义,D-R-3模型和D-A-3模型不能用于描述长焰煤的吸附特性,T-BET-3模型异常高的最大吸附量所反映的吸附机理尚待研究。综合分析,认为T、L-F、E-L、B-BET-3、T-BET-1和T-BET-2模型用于描述煤中甲烷超临界吸附较为理想。
赵龙,秦勇,杨兆彪,申建,韩贝贝,张政 . 煤中超临界甲烷等温吸附模型研究[J]. 天然气地球科学, 2014 , 25(5) : 753 -760 . DOI: 10.11764/j.issn.1672-1926.2014.05.753
In order to understand the physical mechanism of coalbed methane adsorption in coal in the light of mathematical models,the measurements of the isothermal methane adsorption from three coal samples with different ranks under the air dry and dry ash-free basis were fitted by the models of Langmuir,Freundlich,Toth,Langmuir-Freundlich,Extended Langmuir,BET,D-R and D-A in which the parameters have physical meanings.The p0 was defined as the virtual saturated vapor pressure in the BET,D-R and D-A models and computed via three means.Methane adsorption behaviors of samples on two bases were compared and the microscopic mechanisms of the adsorption were discussed based on the fitted values of the parameters.The fitted effects of each model respectively for a single and all three samples were analyzed comparatively.It was suggested that the B-BET-1 and B-BET-2 models have no physical meaning for the coal samples,D-R-3 and D-A-3 models can not characterize the adsorption of the flame coal,and the mechanism of abnormally high maximum adsorption capacity form the T-BET-3 model is subjected to further discussion.Comprehensively,the T,L-F,E-L,B-BET-3,T-BET-1 and T-BET-2 models are suitable to describe the supercritical isothermal adsorption of methane in coal.
[1]Chen Chunlin,Lin Dayang.Application of isothermal curves in estimating minable resource of coalbed methane[J].Journal of China University of Mining and Technology,2005,34(5):679-682.[陈春琳,林大杨.等温吸附曲线方法在煤层气可采资源量估算中的应用[J].中国矿业大学学报,2005,34(5):679-682.]
[2]Li Anqi,Zhang Xin,Zhong Xiaogang,et al.Application of adsorption curve of coalbed methane in exploration and development[J].Natural Gas Industry,2008,28(3):80-82.[李安启,张鑫,钟小刚,等.煤岩吸附曲线在煤层气勘探开发中的应用[J].天然气工业,2008,28(3):80-82.]
[3]Zhou Yaping,Zhou Li.Study on the adsorption isotherms of supercritical hydrogen on activated carbon[J].Acta Physico-Chimica Sinica,1997,13(2):119-127.[周亚平,周理.超临界氢在活性炭上的吸附等温线研究[J].物理化学学报,1997,13(2):119-127.]
[4]Yu Hongguan,Fan Weitang,Sun Maoyuan.Study on fitting models for methane isotherms adsorption of coals[J].Journal of China Coal Society,2004,29(4):463-467.[于洪观,范维唐,孙茂远.煤中甲烷等温吸附模型的研究[J].煤炭学报,2004,29(4):463-467.]
[5]Cui Yongjun,Yang Xilu.Method of volume correction for multi-component gas isothermal adsorption[J].Coal Geology and Exploration,2001,29(5):25-27.[崔永君,杨锡禄.多组分等温吸附测试中的体积校正方法探讨[J].煤田地质与勘探,2001,29(5):25-27.]
[6]Hu Tao,Ma Zhengfei,Yao Huqing.Study on high adsorption isotherms of supercritical methane[J].Natural Gas Chemical Industry,2002,27(2):36-40.[胡涛,马正飞,姚虎卿.甲烷超临界高压吸附等温线研究[J].天然气化工,2002,27(2):36-40.]
[7]Zhang Li,He Xueqiu,Wang Enyuan,et al.Study of absorptive characteristics of coal[J].Journal of Taiyuan University of Technology,2001,32(5):449-451.[张力,何学秋,王恩元,等.煤吸附特性的研究[J].太原理工大学学报,2001,32(5):449-451.]
[8]Jiang Shuhong,Ou Chenghua.A review of Monte Carlo method for the supercritical coalbed methane absorption[J].West China Exploration Engineering,2009,(8):48-51.[蒋书虹,欧成华.煤层气超临界吸附行为的蒙特卡罗方法研究综述[J].西部探矿工程,2009,(8):48-51.]
[9]Liu Yuewu,Su Zhongliang,Fang Hongbin,et al.A review of the coalbed methane desorption/adsorption mechanisms[J].Well Testing,2010,19(6):37-44.[刘曰武,苏中良,方虹斌,等.煤层气的解吸/吸附机理研究综述[J].油气井测试,2010,19(6):37-44.]
[10]Jia Hengyi,Pang Yeqing,Chen Jian,et al.Study on supercritical adsorption of coalbed methane[J].Beijing Electric Power College,2012,(3):207.[贾恒义,庞叶青,陈建,等.煤层气的超临界吸附研究[J].北京电力高等专科学校学报,2012,(3):207.]
[11]Cui Yongjun.Adsorption of CH4,N2,CO2 Single and Multicomponent Gas on Coal[D].Xi′an:Xi′an Branch,China Coal Research Institute,2003:8-126.[崔永君.煤对CH4、N2、CO2及多组分气体吸附的研究[D].西安:煤炭科学总院西安分院,2003:8-126.]
[12]Guo Xiaohua,Cai Wei,Ma Shangquan,et al.Study of applicabibity of methane adsorption isotherm models in different pressure range[J].Coal Technology,2010,29(6):179-182.[郭晓华,蔡卫,马尚权,等.甲烷吸附模型在不同压力区间的适用性研究[J].煤炭技术,2010,29(6):179-182.]
[13]Jiang Wenping,Cui Yongjun,Zhong Lingwen,et al.Quantum chemical study on coal surface interacting with CH4 and H2O[J].Natural Gas Geoscience,2007,18(4):576-579,583.[降文萍,崔永君,钟玲文,等.煤中水分对煤吸附甲烷影响机理的理论研究[J].天然气地球科学,2007,18(4):576-579,583.]
[14]Zhao Jin,Zhang Suian,Cao Lihu.Comparison of experimental adsorption between shale gas and coalbed gas[J].Natural Gas Geoscience,2013,24(1):176-181.[赵金,张遂安,曹立虎.页岩气与煤层气吸附特征对比实验研究[J].天然气地球科学,2013,24(1):176-181.]
[15]Qin Yong,Song Quanyou,Fu Xuehai.Discussion on reliability for co-mining the coalbed gas and normal petroleum and natural gas:Absorptive effect of deep coal reservoir under condition of balanced water[J].Natural Gas Geoscience,2005,16(4):492-498.[秦勇,宋全友,傅学海.煤层气与常规油气共采可行性探讨——深部煤储层平衡水条件下的吸附效应[J].天然气地球科学,2005,16(4):492-498.]
[16]Guo Shihui,Wang Xiaodong.Effect of different adsorption models on the evaluation of coalbed methane reserves[J].Well Testing and Production Technology,2007,28(1):6-9.[郭世慧,王晓冬.不同吸附模型对煤层气藏地质储量评价的影响[J].试采技术,2007,28(1):6-9.]
[17]Zhou Li,Zhang Junshe,Zhou Yaping.A simple isotherm equation for modeling the adsorption equilibria on porous solids over wide temperature ranges[J].Langmuir,2001,17(18):5503-5507.
[18]Wang Yichen.Theoretical derivation of Freundlich isothermal adsorption function[J].Yantai Teachers College Journal:Natural Science,1993,9(4):76-78.[王宜辰.Freundlich吸附等温式的理论推导[J].烟台师范学院学报;自然科学版,1993,9(4):76-78.]
[19]Chen Run,Qin Yong,Yang Zhaobiao,et al.Adsorption of coal bed methane and its geological significance[J].Coal Science and Technology,2009,37(8):103-107.[陈润,秦勇,杨兆彪,等.煤层气吸附及其地质意义[J].煤炭科学技术,2009,37(8):103-107.]
[20]Dai Shifeng,Zhang Beibei,Peng Suping,et al.Models of pure CO2 and pure CH4 adsorption on the Late Paleozoic coals from the Kailuan Coalfield,Hebei,China[J].Acta Geologica Sinica,2009,83(5):731-737.[代世峰,张贝贝,彭苏萍,等.河北开滦矿区晚古生代煤对CO2和CH4气体吸附模型探讨[J].地质学报,2009,83(5):731-737.]
[21]Chen Run.Response and Mechanism of Step-extracted Vitrain to Supercritical Methane Adsorption[D].Xuzhou:China University of Mining and Technology,2010:35-194.[陈润.镜煤逐级抽提超临界吸附响应及其机理[D].徐州:中国矿业大学,2010:35-194.]
[22]The Editorial Committee of Chemical Engineering Handbook.Chemical Engineering Handbook[M].Beijing:Chemical Industry Press,1989.[《化学工程手册》编辑委员会.化学工程手册[M].北京:化学工业出版社,1989.]
[23]Su Xianbo,Lin Yin,Lin Xiaoying,et al.Study of methane adsorption on coal with adsorption potential theory[J].China Coalbed Methane,2006,3(2):28-30.[苏现波,林荫,林晓英,等.吸附势理论在煤层甲烷吸附中的应用[J].中国煤层气,2006,3(2):28-30.]
[24]Ozawa S,Kusumi S,Ogino Y.Physical adsorption of gases at high pressure Ⅳ:An improvement of the Dubinin-asakhov adsorption[J].Journal Colloid Interface Science,1976;83-89.
[25]Amankwah K A G,Schwarz J A.A modified approach for estimating pseudovapor pressures in the application of the Dubinin-astakhov equation[J].Carbon,1995,33(9):1313-1319.[26]Zhou Yaping,Zhou Li.Model fitting for high pressure adsorption isotherms of hydrogen in wide range of temperature[J].Journal of Chemical Engineering of Chinese University,1998,12(3):209-212.[周亚平,周理.大温度区间氢的高压吸附等温线模型[J].高校化学工程学报,1998,12(3):209-212.]
[27]Dubinin M M.The potential theory of adsorption of gases and vapors for adsorbents with energetically nonuniform surfaces[J].Chemical Reviews,1960,(60):235-241.
[28]Reich R,Ziegier W T,Rogers K A.Adsorption of methane,ethane,and ethylene gases and their binary and ternary mixtures and carbon dioxide on activated carbon at 212-301K and pressures to 35 atmospheres[J].Industrual & Engineering Chemistry Process Design and Development,1980,(19):336-344.
[29]Chen Xiaochun,Sun Wei.Practical Data Handbook for Chemical Engineer[M].Beijing:Chemical Idustry Press,2005.[陈晓春,孙巍.化学工程师实用数据手册[M].北京:化学工业出版社,2005.]
[30]Zhou Li,Li Ming,Zhou Yaping.Adsorption measurement and theoretical analysis of supercritical methane on the high surface area activated carbon[J].Science in China:Series B,2000,30(1):49-56.[周理,李明,周亚平.超临界甲烷在高表面活性炭上的吸附测量及其理论分析[J].中国科学:B辑,2000,30(1):49-56.]
[31]Zhang Qun,Yang Xilu.Isothermal adsorption of coals on methane under equilibrium moisture[J].Journal of China Coal Society,1999,24(6):566-570.[张群,杨锡禄.平衡水分条件下煤对甲烷的等温吸附特性研究[J].煤炭学报,1999,24(6):566-570.]
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