|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
质量、热量传递过程中的Marangoni效应*
Keywords: Marangoni现象,质量传递,热量传递,非线性
Abstract:
由质量、热量传递引发,表面张力梯度驱动的Marangoni效应不但对化学工程、材料工程和热能工程等领域里的一系列过程具有重要的影响,而且具有非线性耗散系统理论研究的一个具有实际意义的课题。对Marangoni效应的实验及理论研究有助于增进对微观传热、传质机理的理解,它的合理利用也可以提高某些过程的效率。迄今为止,对Marangoni效应的认识还不能满足理论研究和工程应用的要求。按期在各相关领域内对Marangoni的研究十分活跃,本文回顾了这些研究成果。
| [1] | [ 2 ] Sherwood T K, Pigford R L , Wilke C R. Mass Transfer.New York: McGraw Hill, 1975. 184—188
|
| [2] | [ 3 ] Boyadjiev C. Int. J. Heat Mass Transfer, 2000, 43:2749—2757
|
| [3] | [ 4 ] Hozawa M , Inoue M , Sato J. J. Chem. Eng. Japan,1991, 24: 209—214
|
| [4] | [ 5 ] Whiffin P A C, Bruton T M , Brice J C. J. Crystal Growth, 1976, 32: 205—217
|
| [5] | [ 8 ] Lyford P A , Pratt H R C, Griesen F, et al. Canadian J. of Chem. Eng. , 1998, 76: 167—182
|
| [6] | [ 9 ] Pantaloni J , Bailleux R, Salan J , Velarde M G. J. Non-Equilibrium Thermodynam ics, 1979, 4: 201—217
|
| [7] | [ 11 ] Schwabe D. Adv. Space Res. , 1999, 24: 1347—1356
|
| [8] | [ 12 ] Szymczyk J A. The Canadian J. Chem. Eng. , 1991, 69:1271—1276
|
| [9] | [ 14 ] Orell A , Westwater J W. AIChE J. , 1962, 8: 350—356
|
| [10] | [ 15 ] Imaish i N , Fujinawa K. Intern. Chem. Eng. , 1980, 20:226—232
|
| [11] | [ 16 ] Suciu D G, Smigelschi O, Buckenstein E. AIChE J. ,1967, 13: 1120—1124
|
| [12] | [ 19 ] Agble D, Mendes-Tatsis M A. Int. J. Heat Mass Transfer, 2001, 44: 1439—1449
|
| [13] | [ 25 ] Kapur D N , Macleod N. Int. J. Heat Mass Transfer,1974, 17: 1151—1162
|
| [14] | [ 26 ] Guzun-Stoica A , Kurzeluk A M , Floarea O. Chem. Eng.Sci. , 2000, 55: 3813—3816
|
| [15] | [ 27 ] Agble D, Mendes-Tatsis M A. Int. J. Heat Mass Transfer, 2000, 43: 1025—1034
|
| [16] | [ 28 ] Nield D A. J. Fluid Mech. , 1964, 19: 341—352
|
| [17] | [ 30 ] 葛培文(Ge P W ) , 西永颂(Xi Y S) , 李超荣(Li C R) 等.中国科学(A 辑) (Science in China, series A ) , 2001, 31:56—58
|
| [18] | [ 33 ] Hibiya T, Nakamura S. Adv. Space Res. , 1999, 24:1225—1230
|
| [19] | [ 36 ] Hovestreijdt J. Chem. Eng. Sci. , 1963, 18: 631—639
|
| [20] | [ 37 ] Abe Y, Oka T, Mori Y. Int. J. Heat Mass Transfer,1994, 37: 2405—2413
|
| [21] | [ 39 ] 文东升(Wen D S) , 王补宣(Wang B X) , 彭晓峰(Peng X F ). 清华大学学报(自然科学版) ( J. Tsinghua Univ. )(Sci. Tech. ) , 2001, 41: 128—130
|
| [22] | [ 40 ] Christopher D M , Wang B X. Int. J. Heat Mass Transfer, 2001, 44: 799—810
|
| [23] | [ 41 ] Lewis J B, Pratt H R C. Nature, 1953, 171: 1155—1156
|
| [24] | [ 42 ] Bakker C A P. van Buytenen P M , Beek W J. Chem.Eng. Sci. , 1966, 21: 1039—1046
|
| [25] | [ 43 ] Davies G A , Thornton J D. Letters in Heat and Mass Transfer, 1977, 4: 287—290
|
| [26] | [ 44 ] Perezde Ortiz E S, Sawistowski H. Chem. Eng. Sci. ,1973, 28: 2063—2069
|
| [27] | [ 45 ] Sherwood T K, Wei J C. Indus. Eng. Chemistry, 1957,49: 1030—1034
|
| [28] | [ 47 ] Mudge L K, Heideger W J. AIChE J. , 1970, 16: 602—608
|
| [29] | [ 48 ] Liang T B, Slater M J. Chem. Eng. Sci. , 1990, 45: 97—105
|
| [30] | [ 49 ] Bennett D E, Gallardo B S, Abbott N L. J. American Chem. Society, 1996, 118: 6499—6505
|
| [31] | [ 50 ] Zuiderweg F J. Chem. Eng. Res. Des. , 1983, 61: 388—390
|
| [32] | [ 54 ] Vander Klooster H W , Drinkenburg A A H. I. Ch. E.Symp. Ser. , 1979, 56: 25—28
|
| [33] | [ 55 ] Semkov K R, Kolev N. Chem. Eng. & Proc. , 1991, 29:77—83
|
| [34] | [ 56 ] Matin A M , Perez A C. Intern. Chem. Eng. , 1994, 34:76—81
|
| [35] | [ 57 ] Golovin A A. Chem. Eng. Sci. , 1992, 47: 2069—2080
|
| [36] | [ 59 ] Misko I G, Garber Yu N. J. Appl. Chem. , 1989, 62:84—88
|
| [37] | [ 60 ] Golovin A A , Rabinovich L M. ISEC288 (2) , 1988, 97—100
|
| [38] | [ 63 ] Olander D R, Reddy L B. Chem. Eng. Sci. , 1964, 19:67—73
|
| [39] | [ 64 ] Sawistowski H, Goltz G E. Trans. Instn. Chem. Engrs. ,1963, 41: 174—181
|
| [40] | [ 67 ] Brian P L T. AIChE J. , 1971, 17: 765—772
|
| [41] | [ 68 ] Kang K H, Choi C K, Hwang I G. AIChE J. , 2000, 46:15—23
|
| [42] | [ 70 ] Warmuzinsk i K, Tanczyk M. Chem. Eng. Sci. , 1995,50: 3521—3524
|
| [43] | [ 71 ] Daiguji H, Hihara E, Saito T. Int. J. Heat Mass Transfer, 1997, 40: 1743—1752
|
| [44] | [ 72 ] Scanlon J M , Segel L A. J. Fluid Mech. , 1967, 30:149—162
|
| [45] | [ 74 ] Bestehorn M. Phys. Rev. E, 1993, 48: 3622—3634
|
| [46] | [ 75 ] Hadji L , Safar J , Schell M. J. Non-Equilib. Thermodyn. , 1991, 16: 343—356
|
| [47] | [ 77 ] Bragard J , Slavtchev S G, Lebon G. J. Colloid Interface Sci. , 1994, 168: 402—413
|
| [48] | [ 78 ] Ho K L , Chang H C. AIChE J. , 1988, 34: 705—722
|
| [49] | [ 82 ] Galazka Z, Wilke H. J. Crystal Growth, 2000, 216:389—398
|
| [50] | [ 83 ] Bestehorn M , Colinet P. Phys. D, 2000, 145: 84—109
|
| [51] | [ 1 ] Scriven L E, Sternling C V. Nature, 1960, 187: 186—188
|
| [52] | [ 6 ] 雷永平(Lei Y P ) , 史耀武(Shi Y W ) , 村川英一(Murakawa H). 西安交通大学学报(J. Xi‘an Jiaotong Univ. ) ,1999, 33: 70—74
|
| [53] | [ 7 ] Sharma A , Ruckenstein E. J. Colloid Interface Sci. ,1986, 111: 8—36
|
| [54] | [ 10 ] Koschmieder E L , Prahl S A. J. Fluid Mech. , 1990, 240:571—583
|
| [55] | [ 13 ] Zhang N , Chao D F. Int. Comm. Heat Mass Transfer,1999, 26: 1069—1080
|
| [56] | [ 17 ] Zhang S H, Wang Z M , Su Y F. Trans. IChemE. , 1990,68: 84—92
|
| [57] | [ 18 ] Okhotsimskii A , Hozawa M. Chem. Eng. Sci. , 1998, 53:2547—2573
|
| [58] | [ 20 ] Brian P L T, Vivian J E, Mayr S T. Ind. Eng. Chem.Fundam. , 1971, 10: 75—83
|
| [59] | [ 21 ] Imaishi N , Suzuki Y, Hozawa M , Fujinawa K. Intern.Chem. Eng. , 1982, 22: 659—665
|
| [60] | [ 22 ] Lu H H, Yang Y M , Ma J R. Ind. Eng. Chem. Res. ,1996, 35: 1921—1928
|
| [61] | [ 23 ] Tan K K, Thorpe R B. Chem. Eng. Sci. , 1992, 47:3565—3572
|
| [62] | [ 24 ] Straub J. Exp. Thermal Fluid Sci. , 1994, 9: 253—273
|
| [63] | [ 29 ] Dupont O , Hennenberg M , Legros J C. Int. J. Heat Mass Transfer, 1992, 35: 3237—3244
|
| [64] | [ 31 ] Gelles S H, Markworth J. 15th AJAA Conf. , Los Angeles, 1977
|
| [65] | [ 32 ] 张修睦( Zhang X M ) , 唐泽眉( Tang Z M ). 物理(Physics) , 1998, 27: 478—482
|
| [66] | [ 34 ] Block M J. Nature, 1956, 178: 650—658
|
| [67] | [ 35 ] Pearson J R A. J. Fluid Mech. , 1958, 4: 489—500
|
| [68] | [ 38 ] Chai L H, Peng X F, Wang B X, Ochterbeck J M. Int. J.Heat Mass Transfer, 1998, 41: 3529—3535
|
| [69] | [ 46 ] Maroudas N G, Sawistowski H. Chem. Eng. Sci. , 1964,19: 919—931
|
| [70] | [ 51 ] Dijkstra H A , Drinkenburg A A H. Chem. Eng. Sci. ,1990, 45: 1079—1088
|
| [71] | [ 52 ] Pertler M , Haberl M , Rommel W , Blass E. Chem. Eng.& Proc. , 1995, 34: 269—278
|
| [72] | [ 53 ] Proctor S J , Biddulph M W , Krishnamurthy K R. A IChE J. , 1998, 44: 831—835
|
| [73] | [ 58 ] Warmuzinski K, Buzek J. Chem. Eng. Sci. , 1990, 45:243—254
|
| [74] | [ 61 ] Golovin A A , Rabinovich L M. Theor. Osnovi Khim.Technol. , 1990, 24: 592—610
|
| [75] | [ 62 ] Fujinawa K, Hozawa M , Imaishi N. J. Chem. Eng.Japan, 1978, 11: 107—111
|
| [76] | [ 65 ] Kaminsky V A K, Vyaz’min A V , Kulov N N , et al.Chem. Eng. Sci. , 1998, 53: 3347—3353
|
| [77] | [ 66 ] Sternling C V , Scriven L E. AIChE J. , 1959, 5: 514—523
|
| [78] | [ 69 ] Mendes-Tatsis M A , Perez De Ortiz E S. Chem. Eng.Sci. , 1996, 51: 3755—3761
|
| [79] | [ 73 ] Cloot A , Lebon G. J. Fluid Mech. , 1984, 145: 447—469
|
| [80] | [ 76 ] Golovin A A , Nepomnyashchy A A , Pismen L M. Physica D, 1995, 81: 117—147
|
| [81] | [ 79 ] Sun Z F, Wang S Y, Yu K T. ISTCE I , 1988, 599—608
|
| [82] | [ 80 ] Boyadjiev C, Halatchev I. Int. J. Heat Mass Transfer,1998, 41: 197—202
|
| [83] | [ 81 ] 唐泽眉(Tang Z M ) , 李家春(Li J C). 力学学报(Acta Mechanica Sinica) , 1991, 23: 149—156
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
