Study on the Mechanism of Heterogeneous Catalysis (1) —The Measurement of Equilibrium Pressure of Reaction BaCO3+ C = BaO + 2CO, the Chemical States of Fe in Reaction Tank, and Chemical Reaction Model Catalytic Cycle Mechanism (CRMM) 被引量：2

Study on the Mechanism of Heterogeneous Catalysis (1) —The Measurement of Equilibrium Pressure of Reaction BaCO3+ C = BaO + 2CO, the Chemical States of Fe in Reaction Tank, and Chemical Reaction Model Catalytic Cycle Mechanism (CRMM)

下载PDF

导出

摘要 The results on the equilibrium pressure measurement of BaCO3 + C = BaO + 2CO reaction and the demonstration of chemical state of iron proved that decomposition-generation cycle of BaCO3 and oxidation-reduction cycle of Fe in that reaction condition case were impossible to occur. The Chemical Reaction Model Catalytic Cycle Mechanism-CRMM does not exist at all for BaCO3, Fe, Noble metal catalysts. To call CRMM as a “principle” was obviously inappropriate. The TOF (Turnover Frequency—TOF: unit: s-1) was used to measure the activity size and life of catalyst, and it is clearly out of nothing. The results on the equilibrium pressure measurement of BaCO3 + C = BaO + 2CO reaction and the demonstration of chemical state of iron proved that decomposition-generation cycle of BaCO3 and oxidation-reduction cycle of Fe in that reaction condition case were impossible to occur. The Chemical Reaction Model Catalytic Cycle Mechanism-CRMM does not exist at all for BaCO3, Fe, Noble metal catalysts. To call CRMM as a “principle” was obviously inappropriate. The TOF (Turnover Frequency—TOF: unit: s-1) was used to measure the activity size and life of catalyst, and it is clearly out of nothing.

作者 Jiamin Jin Weifan Bao

机构地区 Shanghai Research Institute of Materials

出处《Journal of Materials Science and Chemical Engineering》 2017年第7期90-100,共11页 材料科学与化学工程（英文）

关键词 Heterogeneous-Catalysis MECHANISM CARBURIZING BACO3 Heterogeneous-Catalysis Mechanism Carburizing BaCO3

分类号 O6 [理学—化学]

引文网络
相关文献

参考文献2

1金家敏,包伟芳.再论载体材料与贵金属催化剂——粉末冶金多孔金属应当是贵金属催化剂的合理载体材料[J].材料导报,2012,26(5):52-61. 被引量：8
2杜鹤桂,杨俊和.矿物质对高炉焦炭溶损反应的催化作用[J].炼铁,2002,21(4):22-24. 被引量：29

二级参考文献28

1Deutschmann O,Knozinger N, Kochloefl K,et al. Heterogeneous catalysis and solid catalysts[M]. Wiley-VCH Weinheim, 2009 : 8.
2Walker P L, Shelef J M, Anderson R A. Catalysis of carbon gasification[J]. Chem Phys Carbon, 1968, 4: 287.
3Mckee D W. The catalyzed gasification reaction of carbon [J]. Chem Phys Carbon, 1981,16: 1.
4明克维奇.钢的化学热处理[M].石霖译.机械工业出版社,1956:39.
5Rao Y K. Catalysis in extractive metallurgy[J]. J Metal, 1983,7:46.
6Tanaka Y, Lund J A. Catalytic effect of carnonates in irongraphite compacts[J]. Power Metall, 1988,31 : 45.
7洪涛吴菊清金家敏.合金元素对铁-碳混合料压片中碳溶解速度的影响.机械工程材料,1993,17(6):27-27.
8金家敏.关于BaCO3+C=BaO+2CO反应平衡的研究和固体渗碳剂中催渗剂的催渗理论,碳酸钡分解压力测定[R].上海交通大学科学报告讨论会.上海,1963:3030.
9金家敏.固体渗碳剂中碳酸盐的催渗作用.中国机械工程学会第一届全国热处理年会论文选集[M].北京:机械工业出版社,1966:389.
10Jin Jiamin. The diverse effects of Fe, Cu, Ni, Ag, SiO2 addition to carbon on the reduction rate of ferric oxide[M]. Florida, USA: MPIF&APMI, 1988: 243.

共引文献33

1刘尚超,陈鹏,项茹,薛改凤.焦炭热性能影响因素分析[J].煤炭科学技术,2008,36(5):104-108. 被引量：16
2梁鸿飞.添加剂对焦炭热性质影响的研究[J].煤化工,2009,37(3):31-32. 被引量：2
3崔平,杨敏,彭静,张磊.焦炭反应性的多元素矿物催化研究[J].钢铁,2006,41(3):16-19. 被引量：18
4王存政,廖洪强,薛立民,程晓光,任中兴.焦炭钝化技术的研究[J].煤炭科学技术,2006,34(4):71-73. 被引量：10
5余水生,游坚,余轶峰,张文祥.硼酸基钝化剂钝化柳钢焦炭的试验研究[J].冶金信息导刊,2006(5):33-36. 被引量：3
6刘德军,王尤清,于淑娟,张立国,安云沛.提高焦炭热态性能的钝化处理技术研究[J].中国冶金,2006,16(12):27-30. 被引量：11
7金家敏,包伟芳.再论载体材料与贵金属催化剂——粉末冶金多孔金属应当是贵金属催化剂的合理载体材料[J].材料导报,2012,26(5):52-61. 被引量：8
8李金莲,栗红,任伟,车玉满,龙晓阳.焦炭中铁元素主要存在形态及含量的研究[J].鞍钢技术,2012(2):15-17. 被引量：1
9马超,张建良,庞清海,祁成林.高温捣固焦与顶装焦抗碱性差异研究[J].燃料与化工,2012,43(5):25-26. 被引量：9
10张松,汪琦,李金莲,韩淑峰.氧化物对碳气化反应的影响[J].材料导报（纳米与新材料专辑）,2013,27(1):115-116. 被引量：3

同被引文献5

1金家敏,包伟芳,吴菊清,张德明.载体材料与贵金属催化剂[J].材料导报（网络版）,2007,2(5):45-50. 被引量：4
2李春阳,田升平,牛桂芝.中国重晶石矿主要矿集区及其资源潜力探讨[J].化工矿产地质,2010,32(2):75-86. 被引量：47
3何林.超低温低压钌系氨合成催化剂研究的新进展[J].工业催化,2000,8(1):3-11. 被引量：12
4杜鹤桂,杨俊和.矿物质对高炉焦炭溶损反应的催化作用[J].炼铁,2002,21(4):22-24. 被引量：29
5Renxing Wang,Zhenyu Liu,Leiming Ji,Xiaojin Guo,Xi Lin,Junfei Wu,Qingya Liu.Reaction kinetics of CaC2 formation from powder and compressed feeds[J].Frontiers of Chemical Science and Engineering,2016,10(4):517-525. 被引量：7

引证文献2

1李淼,赵虹,姜标,陈思远,闫龙.煤制乙炔关键中间体BaC_(2)合成的热力学分析[J].化工学报,2022,73(5):1908-1919.
2Jiamin Jin,Weifang Bao.Study on the Mechanism of Heterogeneous Catalysis (4)—Electron Cyclic Donate-Accept Catalysis Mechanism-ECDAM or Electron Orbital Deformation-Reversion Cyclic Catalysis Mechanism-EODRM[J].Journal of Materials Science and Chemical Engineering,2018,6(8):15-30. 被引量：1

二级引证文献1

1Jiamin Jin.A Comparison of Two Heterogeneous Catalysis Mechanisms[J].Modern Research in Catalysis,2019,8(3):25-37.

1Xiaogang Yao,Wei Chen,Lan Luo.The Reaction Sequence and Dielectric Properties of BaAl2Ti5O14Ceramics[J].Advances in Materials Physics and Chemistry,2012,2(4):28-30.
2Jiamin Jin,Weifang Bao.Study on the Mechanism of Heterogeneous Catalysis (2) —The Relative Catalytic Activities of Fe, Co, Ni, Cu, Ag and SiO2 in the Carbon Catalyzed Gasification Reaction[J].Journal of Materials Science and Chemical Engineering,2018,6(4):191-201.
3Bingqian Han,Yuxiu Li,Nan Chen,Dongyang Deng,Xinxin Xing,Yude Wang.Preparation and Photocatalytic Properties of LnBaCo2O5+δ(Ln = Eu, Gd, and Sm)[J].Journal of Materials Science and Chemical Engineering,2015,3(4):17-25.
4Congmin Liu,Zhe Zhang,Wei Liu,Xu Du,Shi Liu,Yong Cui.Synergistic effect of polyoxometalate solution and TiO_2 under UV irradiation to catalyze formic acid degradation and their application in the fuel cell and hydrogen evolution[J].Green Energy & Environment,2017,2(4):436-441. 被引量：1
5M. Sumadiyasa,I. B. S. Manuaba,P. Suardana.Barium Hydroxide Octahydrate (Ba(OH)2&middot;8H2O) as a Substitute Alternative for Barium Carbonate (BaCO3) in Synthesis Superconductor of Nd1Ba2Cu3O7-δPhase[J].Journal of Materials Science and Chemical Engineering,2018,6(7):117-124.
6Sankararao Gattu,Venuturupalli Durga Prasadu,Kocharlakota Venkata Ramesh.Effect of Zr on Structural and Dielectrical Properties of (Ba0.9Mg1.0)(ZrxTi1-x)O3Ceramics[J].Advances in Materials Physics and Chemistry,2015,5(10):419-425.
7Jiamin Jin,Weifang Bao.Study on the Mechanism of Heterogeneous Catalysis (4)—Electron Cyclic Donate-Accept Catalysis Mechanism-ECDAM or Electron Orbital Deformation-Reversion Cyclic Catalysis Mechanism-EODRM[J].Journal of Materials Science and Chemical Engineering,2018,6(8):15-30. 被引量：1
8Alagu Eswari,Lakshmanan Rajendran.Application of variational iteration method and electron transfer mediator/catalyst composites in modified electrodes[J].Natural Science,2010,2(6):612-625.
9A. M. Mohagir,N. D. Bup,C. F. Abi,R. Kamga,R. C. Kapseu.Optimisation of Decolourisation Conditions of Crude Shea (Vitellaria paradoxaGaertner F) Butter: Black Type[J].Advances in Chemical Engineering and Science,2015,5(4):515-525.
10Jiamin Jin,Tou Hong,Juqing Wu.Study on the Mechanism of Heterogeneous Catalysis (3) —The Catalysis of W, Mo, S and SiO2on Carbon Dissolving and Mechanism of Carbon Dissolving in the Iron-Graphite Compact[J].Journal of Materials Science and Chemical Engineering,2017,5(11):77-86.

Journal of Materials Science and Chemical Engineering

2017年第7期

浏览历史

内容加载中请稍等...

Study on the Mechanism of Heterogeneous Catalysis (1) —The Measurement of Equilibrium Pressure of Reaction BaCO<sub>3</sub>+ C = BaO + 2CO, the Chemical States of Fe in Reaction Tank, and Chemical Reaction Model Catalytic Cycle Mechanism (CRMM) 被引量：2

参考文献2

二级参考文献28

共引文献33

同被引文献5

引证文献2

二级引证文献1

相关作者

相关机构

相关主题

浏览历史

Study on the Mechanism of Heterogeneous Catalysis (1) —The Measurement of Equilibrium Pressure of Reaction BaCO&lt;sub&gt;3&lt;/sub&gt;+ C = BaO + 2CO, the Chemical States of Fe in Reaction Tank, and Chemical Reaction Model Catalytic Cycle Mechanism (CRMM) 被引量：2

参考文献2

二级参考文献28

共引文献33

同被引文献5

引证文献2

二级引证文献1

相关作者

相关机构

相关主题

浏览历史

Study on the Mechanism of Heterogeneous Catalysis (1) —The Measurement of Equilibrium Pressure of Reaction BaCO<sub>3</sub>+ C = BaO + 2CO, the Chemical States of Fe in Reaction Tank, and Chemical Reaction Model Catalytic Cycle Mechanism (CRMM) 被引量：2