Domazetis George, James Bruce D, Liesegang John
Chemistry Department, La Trobe University, Melbourne, VIC, 3086, Australia.
J Mol Model. 2008 Jul;14(7):581-97. doi: 10.1007/s00894-008-0309-9. Epub 2008 May 14.
Molecular models of low-rank coal containing water, aqua-ionic species, and transition metal aqua-complexes, were optimised using semi-empirical (SE) quantum mechanics; the model was constructed with properties similar to brown coal; 10-20 wt% water was hydrogen bonded to coal oxygen groups, and the remainder was bulk water. Single point self-consistent field (1scf) computations of coal models provided octahedral mono-, and di-nuclear complexes of Cr, Fe, Co, and Ni, but SE computations often provided distorted structures. Models of char were developed by transforming the coal model containing multi-nuclear metal species into char according to pyrolysis chemistry; the composition of char models containing iron oxides was similar to char samples obtained over 250-800 degrees C. Density functional theory (DFT) optimisation of char models with metal clusters provided low energy configurations of disordered structures with a shallow energy minimum. SE and DFT calculations of char models containing metal clusters were conducted for mechanisms for H2 and CO formation from pyrolysis and iron-catalysed steam gasification; the active site for gasification was [Fe-C] and its accessibility to H2O was related to the configuration of the char model. The major steps in iron-catalysed steam gasification were chemi-adsorption of water on [Fe-C], hydrogen abstraction, and oxygen transfer.
利用半经验(SE)量子力学对含有水、水合离子物种和过渡金属水合络合物的低阶煤分子模型进行了优化;该模型构建得具有与褐煤相似的性质;10 - 20 wt%的水通过氢键与煤中的氧基团相连,其余为自由水。煤模型的单点自洽场(1scf)计算给出了Cr、Fe、Co和Ni的八面体单核和双核络合物,但SE计算常常给出扭曲的结构。通过根据热解化学将含有多核金属物种的煤模型转化为焦炭来开发焦炭模型;含有氧化铁的焦炭模型的组成与在250 - 800摄氏度下获得的焦炭样品相似。用金属簇对焦炭模型进行密度泛函理论(DFT)优化得到了具有浅能量最小值的无序结构的低能量构型。对含有金属簇的焦炭模型进行了SE和DFT计算,以研究热解和铁催化蒸汽气化过程中H2和CO形成的机理;气化的活性位点是[Fe - C],其对H2O的可及性与焦炭模型的构型有关。铁催化蒸汽气化的主要步骤是水在[Fe - C]上的化学吸附、氢提取和氧转移。
