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General Quantitative Model for Coal Liquefaction Kinetics: The Thermal Cleavage/Hydrogen Donor Capping Mechanism

机译：煤液化动力学的一般定量模型：热裂解/氢供体加盖机理

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A mechanism for coal liquefaction, based on the concept of thermal cleavage-hydrogen capping donor complexes, is proposed and the quantitative agreement between the derived rate laws and the kinetic data obtained from fifteen publications is presented. The mechanism provides rate laws which describe the preasphaltene, asphaltene, oil and gas time/yield curves for the coal liquefaction process. A simplistic dissolution model is presented and used to relate the proposed mechanism to the experimentally observed products. Based on the quality of the mechanistic fit to the reported coal liquefaction systems, which cover a diverse range of reaction conditions, coal types and donor solvent compositions, it is proposed that the donor solvent/thermal bond cleavage/hydrogen capping mechanism provides a good, quantitative description of the rate limiting process. Interpretation of the rate constant/temperature dependencies in terms of transition state theory indicates formation of the activated complex can involve either physically or chemically controlled steps. A uniform free energy of activation of 52 kcal was found for the diverse liquefaction systems indicating a common transition state describes the reactions. Thus the proposed mechanism unifies the diverse liquefaction kinetic data by using a set of uniform reaction sequences, which have a common transition state, to describe the conversion chemistry. The mechanism thereby creates a common base for intercomparison, interpretation and evaluation of coal conversion for the broad range of processes currently being investigated in the liquefaction field. (ERA citation 05:019955)

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作者
Gangwer, T.;
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年度 1980
页码 p.1-82
总页数 82
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Coal liquefaction; Activation energy; Arrhenius equation; Chemical bonds; Chemical reaction kinetics; Chemistry; Cleavage; Consumption rates; Correlations; Dissolution; Graphs; Hydrogen; Hydrogen transfer; Mathematical models; Numerical data; Radicals; Tables; Time depe;

机译：煤液化;活化能; arrhenius方程;化学键;化学反应动力学;化学;裂解;消耗速率;相关性;溶解;图;氢;氢转移;数学模型;数值数据;自由基;表;时间依赖;

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专利

1. Theoretical Study on the Mechanism of Hydrogen Donation and Transfer for Hydrogen-Donor Solvents during Direct Coal Liquefaction [J] . Haigang Hao, Tong Chang, Linxia Cui, Catalysts . 2018,第12期

机译：煤直接液化过程中供氢溶剂的供氢和输运机理的理论研究
2. Kinetic model for liquid-phase liquefaction of asphaltene by hydrogenation with industrial distillate narrow fraction as hydrogen donor [J] . Sheng Qiang, Wang Gang, Zhang Qiyuan, Fuel . 2017,第deca1期

机译：工业馏分窄馏分作为氢供体加氢沥青质液相液化的动力学模型
3. A quantitative kinetic model for the fast and isothermal hydrothermal liquefaction of Nannochloropsis sp. [J] . Hietala David C., Faeth Julia L., Savage Phillip E. Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2016,第Null期

机译：Nannochloropsis sp。快速和等温水热液化的定量动力学模型。
4. Liquefaction of a sub-bituminous A coal in H-donor and non- donor solvents [C] . I. de Marco, B. Caballero, M.J. Chomon, International conference on coal science;ICCS '97 . 1997

机译：亚供气煤在H供体和非供体溶剂中的液化
5. SOME ASPECTS OF THE MECHANISM AND KINETICS OF COAL LIQUEFACTION. [D] . SZLADOW, ADAM J. 1979

机译：煤液化机理和动力学的某些方面。
6. A steady-state-kinetic model for formaldehyde dehydrogenase from human liver. A mechanism involving NAD+ and the hemimercaptal adduct of glutathione and formaldehyde as substrates and free glutathione as an allosteric activator of the enzyme. [O] . L Uotila, B Mannervik 1979

机译：人体肝脏甲醛脱氢酶的稳态动力学模型。涉及NAD +和谷胱甘肽和甲醛的半巯基加合物作为底物游离谷胱甘肽作为酶的变构活化剂的机制。
7. The characterization chart for coal-derived liquids. An evaluation method of a hydrogen donor capacity of solvents used in coal liquefactions. [O] . Satoshi OHSHIMA, Kikuko HAYAMIZU, Motoo YUMURA, 1985

机译：煤衍生液体的表征图。煤液化溶剂氢供体能力的评价方法。

General Quantitative Model for Coal Liquefaction Kinetics: The Thermal Cleavage/Hydrogen Donor Capping Mechanism

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