综述了国内外航天热防护用冷却技术的分类、发汗冷却材料研究现状以及发汗冷却技术理论模型的研究进展.比较分析了发汗冷却技术与其他冷却技术的优缺点,并对发汗冷却技术的理论模型作了初步的探讨.
参考文献
| [1] | David E.Glass;Arthur D.Dilley;H.Neale Kelly .Numerical Analysis of Convection/Transpiration Cooling[J].Journal of spacecraft and rockets,2001(1):15-20. |
| [2] | Mihailov V N;Yevgihin B A;Lublinsky I E.Lithium in fusion reactor and power energetic in space of 21 Century[M].Energoation Press, Moscow,1999:241-568. |
| [3] | Castiglone Linda A.;Northam G.Burton;Baker Ned R.;Roe Larry A. .Wall Drag in Internal Mach-2 Flow with Cavity and Transpiration Injection[J].Journal of Propulsion & Power,2000(3):472-477. |
| [4] | D. W. Bogdanoff .Strategies to protect ram accelerator projectiles from in-tube gasdynamic heating[J].Journal de Physique.IV,2000(11):185-195. |
| [5] | Barleon L;Wong C .The transpiration cooled first wall and blanket concept[J].Fusion Engineering and Design,2000,61(02):477-482. |
| [6] | Mueggenburg H H;Hidahl J W;Kessler E L .Platelet actively cooled thermal management devices[R].AIAA, 92 -3127 |
| [7] | Echert E R G;Cho H H .Transition from transpiration to film cooling[J].International Journal of Heat and Mass Transfer,1994,37(01):3-8. |
| [8] | J. A. Nesbitt .Thermal modeling of various thermal barrier coatings in a high heat flux rocket engine[J].Surface & Coatings Technology,2000(2/3):141-151. |
| [9] | Liu G O.Principles of liquid rocket engine[M].Astronautics Press, Beijing,1993:452-695. |
| [10] | Reimann J;Barleon L;Boccacini L.Conceptual design of an evaporation-cooled liquid metal divertor for fusion power plants[M].Symposium on Fusion Technology (SOFT), Lis-bon,2000 |
| [11] | Gottfried laschet .Homogenization of the thermal properties of transpiration cooled multi-layer plates[J].Computer Methods in Applied Mechanics and Engineering,2002(41/42):4535-4554. |
| [12] | Keener D;enertz J L;Bowersox R et al.Transpiration cooling effects on nozzle heat transfer and performance[J].Journal of Spacecraft and Rockets,1995,32(06):981-985. |
| [13] | Frohlke K;Haidn O;Serbest E.New Experimental results on transpiraion cooling for H2/O2 rocket combustion chanmber, AIAA : 98 -3422[A].,1998:952-954. |
| [14] | Sutton G P;Biblarz O.Rocket propulsion elements[M].Wiley,New York,2001:290-291. |
| [15] | EvansA G;Zok F W .The physics and mechanics of fiber-reinforced brittle matrix composites[J].Journal of Materials Science,1994,29(15):3857-3896. |
| [16] | Carton E P;Stuivinga M;Keizers H et al.Shock wave fabricated ceramic-metal ozzles[J].Applied composite materials,1999,6(03):139-165. |
| [17] | Keener D;Lenertz R;Bowersox R .Transpiration cooling effects on nozzle heat transfer and performance[J].Journal of Spacecraft and Rockets,1995,32(06):981-985. |
| [18] | Keener D;enertz J L;Bowersox R et al.Transpiration cooling effects on nozzle heat transfer and performance[J].Journal of Spacecraft and Rockets,1995,32(06):981-985. |
| [19] | 吴慧英,程惠尔,牛禄.层板发汗冷却推力室壁温的数值模拟[J].工程热物理学报,2001(01):104-106. |
| [20] | 刘伟强.层板发汗冷却数学模型与控制方程的求解[J].系统工程与电子技术,1998(05):40. |
| [21] | Kichatov B V;Polyaev V M;Runkovskii S V .Gas bubble dynamics with instability in the operation of a system of transpiration cooling[J].Heat Transfer Research,2001,32(4-6):73-280. |
| [22] | Lakehal D;Theodoridis G S;Rodi W .Three-dimen-sional flow and heat transfer calculations of film cooling at the leading edge of a symmetrical turbine blade model[J].International Journal of Heat and Fluid Flow,2001,22(02):113-12222. |
| [23] | Echert E R G;cho H .Transition from transpiration to film cooling[J].International Journal of Heat and Mass Transfer,1994,37:3-8. |
| [24] | Kacynski K L;Hoffman J D.The prediction of nozzle performance and heat transfer in hydrogen/oxygen rocket engines with transpiration cooling, film cooling and high area ratios AIAA paper 94 - 2757[A].,1994:236-239. |
| [25] | Sumitani Y;Kasagi N .Direct numerical simulation of trubulent transport with uniform wall injection and suction[J].AIAA Journal,1995,33(07):1220-1228. |
| [26] | Jiang P X;Ren Z P;Zhang Z F et al.Numerical simulation of heat transfer in a transpiration cooled liquid rocket thrust chamber. (1) Physical-mathematical model[J].Journal of Propulsion Technology,1999,20(01):1-4. |
| [27] | 姜培学,任泽霈,张左藩,陈旭扬.液体火箭发动机推力室发汗冷却传热过程的数值模拟(Ⅱ)数值方法与计算结果[J].推进技术,1999(04):17-21. |
| [28] | Jens Meinert;Jorg Huhn;Erhan Serbest .Turbulent Boundary Layers with Foreign Gas Transpiration[J].Journal of spacecraft and rockets,2001(2):191-198. |
| [29] | Rodet J C;Campolina-Franca G A;Pagnier P et al.Experimental study of transpiration cooling through porous wall[J].Revue Generale de Thermique,1997,37(02):123-136. |
| [30] | Landis J A;Bowman J W.Numerical study of a transpiration cooled rocket nozzle, AIAA paper 96 - 2508[A].,1996:868-871. |
| [31] | David E.Glass;Arthur D.Dilley;H.Neale Kelly .Numerical Analysis of Convection/Transpiration Cooling[J].Journal of spacecraft and rockets,2001(1):15-20. |
| [32] | Y. H. Andoh;B. Lips .Prediction of porous walls thermal protection by effusion or transpiration cooling. An analytical approach[J].Applied thermal engineering: Design, processes, equipment, economics,2003(15):1947-1958. |
| [33] | 余磊,姜培学,任泽霈.发汗冷却湍流换热过程的数值模拟[J].清华大学学报(自然科学版),2003(12):1668-1671. |
| [34] | 周美珂 .发汗冷却过程的非局部平衡模型[J].北京师范大学学报(自然科学版),1995,31(01):11-15. |
| [35] | 许香敏 .一类带活动边界的分布参数控制系统——发汗冷却控制系统模型与分析[D].中国科学院数学与系统科学研究院,2001. |
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