|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
在非平衡态热力学的基础上探索建立催化理的新途径
Keywords: 催化,非平衡态热力学,耗散结构
Abstract:
平衡态热力学一直被认作多相催化理论的基石之一。但是,它并不能概括工作中的催化剂的状态和行为,这主要是这里还发生一些非平衡过程。催化体系常常处于非平衡状态之下,而非平衡态条件下体系状态和行为,同时取决于体系的动力学和热力学。联系动力学和热力学最一般的关系式并非原来的DeDonder不等式Ar≥0,而是新的DeDonde方程lnr^-/r^-=A/RT。同时发生的总反应之间的热力学耦合对总反应的作用只是形式上的,远不及催化反应链中各基元步骤之间在动力学上的耦合那么重要。通过在动力学方程中引入反应亲和力(热力学位)得到的动力学-热力学结合近似分析,可以用来分析非平衡态的催化反应和催化剂状态。非平衡态热力学在建立多相催化理论中,较之原来的平衡态热力学将能提供更能采纳的和更有意义的物理化学背景。
| [1] | [ 1 ] 吴越. 催化化学(上下册). 北京: 科学出版社. 1998
|
| [2] | [ 8 ] Khrustova N , MichailovA S, Imbihl R. J. Chem. Phys. ,1997, 107: 2096
|
| [3] | [ 9 ] Donder Th De. L ’Affinite. Paris: Gauther Villars, 1927,43
|
| [4] | [ 11 ] Семенов Н Н. О Некоторых пролдемах Хuм КuH. иРеакционнойСпосоR ностиизд. АН, 1958, 415—420
|
| [5] | [ 12 ] Dowden D A. Catalysisvo l 3. (eds. Kemball C, Dowden D A ) London: the Chemical Society, 1980. 137
|
| [6] | [ 13 ] Batist P A , Kapteijns C J , Plippens B C, Schuit G C A. J.Catal. , 1967, 7: 33—49
|
| [7] | [ 15 ] Horiuti J , Nakamura T. A dv. Catal. Rel. Subj. , 1967,17: 38
|
| [8] | [ 16 ] Temkin M I. Adv. Ctal. Rel. Subj. , 1979, 28: 173—291
|
| [9] | [ 17 ] Sormorjai G A. Surface Chemistry and Catalysis. New York: Wiley. 1994
|
| [10] | [ 18 ] Kinakarova O V , Yuriiev T M , Kustova G N , Ziborov A B, et al. Kinet. Catal. , 1993, 34: 81
|
| [11] | [ 21 ] Murry J D. Mathematical Biology. Berlin: Springer 1990
|
| [12] | [ 25 ] ПисаржевскииЛВ. избранныеТрудывобластиКатализКиев.изаАНУССР. 1955 С218231, 66—80
|
| [13] | [ 26 ] Ertl G, Norton P, Rustig R J. Phys. Rev. Lett. , 1982,49 (2)
|
| [14] | [ 32 ] Всесоюзн Т Р. Конф. поМеханизму ГетрегенноКаталич.PeaкцийМосква9213 ? 1970 Иnрnеринт
|
| [15] | [ 36 ] Wei J. J. Chem. Phys. , 1962, 36: 1578
|
| [16] | [ 37 ] Yelokhim V I, Yablensky G S. in Perspective in Catalysis( eds. Thomas T M , Zamarasb K I). Oxford: IOPAC/Blackwell, 1991. 191
|
| [17] | [ 2 ] 李如生. 非平衡态热力学和耗散结构. 北京: 清华大学出版社. 1986
|
| [18] | [ 3 ] Parmon V N. Catal. Today, 1999, 51: 435—456
|
| [19] | [ 4 ] prigogine I. Introduction to Thermodynamics of Irreversible Processes 3rd Ed. New York: Interscience Pub.1957
|
| [20] | [ 5 ] Imbih l R, Ertl G. Chem. Rev. 1995, 95 (3) : 697
|
| [21] | [ 6 ] Shitz E, Hartmann N , Kerrekidis Y, Imbihl R. Faraday Discuss, 1996, 105: 47
|
| [22] | [ 7 ] Mertens F, Schwegmann S. Imbihl R. J. Chem. Phys. ,1997, 106: 4319
|
| [23] | [ 10 ] Prigogine I, Defay R. Chemical Thermodynamics. London: Longman Green. 1954, 38—42, 262
|
| [24] | [ 14 ] Boudart M. Ind. Eng. Chem. Fundamentals, 1986, 25 (1) :70—92
|
| [25] | [ 19 ] Nicolis G, Prigogine I. Self-organization in Non Equilibrium System. New York: Wiley. 1971
|
| [26] | [ 20 ] ЭRлингВ. ОбрaзованиеструктурприНеобртивныхПроцессах.МOCKBA: u?g. Мир, 1979. 271
|
| [27] | [ 22 ] Glassdorf P, Prigogine I. Thermodynamics Theory & Structure, Stability and Fluctuation. New York: Wiley InterScience. 1971
|
| [28] | [ 23 ] Prigogine I. From being to becoming W. H. Freeman and Comp. San Francisco. 1980
|
| [29] | [ 24 ] May R M. Stability and complexity in model Ecosystem.Princeton University Press. 1973
|
| [30] | [ 27 ] Keverekidis L , Schimidt L P, Aris R. U зь. AHcccp.Cep. Xu M. 1984, 32 (1) : 151—167
|
| [31] | [ 28 ] БарелкоВВ, КурьнгкоИИ, МержанновИГД. АНСССР1976, 229 (4) : 898—701; Кин. иКат. 1976, 17 (3) : 683—690
|
| [32] | [ 29 ] Cox M P, Ertl G, Inbihl R. Phys. Rev. Lett. , 1985, 54(15)
|
| [33] | [ 30 ] Eiswirth M , W etzel M P, et al. J. Chem. Phys. , 1989,90 (1) : 510—521
|
| [34] | [ 31 ] Davis W. Phil. Mag. , 1974, 17 (2) : 283—290
|
| [35] | [ 33 ] OKunev A G, Parmon V N. Kinet. Catal. , 1997, 38: 544
|
| [36] | [ 34 ] Mills I, Critas T, Homann K, Kallay N , Kuchisu K.Quantities Units and Symbols in Physical Chemistry. Oxford: Blackwell. 1993, 46
|
| [37] | [ 35 ] Van-Rysselberghe P. J. Chem. Soc. , 1958, 29: 640
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
