參考文獻 |
Amos, N. D., Cleland, D. J., Banks, N. H., “Effect of pallet stacking arrangement on fruit cooling rates within forced-air pre-coolers,” Cold chain refrigeration equipment by design, Nov., 1993, pp. 232-241.
Cleland, A. C., “Simulation of industrial refrigeration plants under variable load conditions,” Int. J. of Refrig., Vol. 6, Jan., 1983, pp. 11-19.
Cortella, G., Manzan, M., and Comini, G., “CFD simulation of refrigerated display cabinets,” Int. J. of Refrig., Vol. 24, 2001, pp. 250-260.
Daudin, J. D., Van Gerwen, and R. J. M., “Air circulation : how to cope with this critical point,” New Developments in Meat Refrigeration, ECCE/AMST/I. I. R. Chillers, 1996, pp. 30-37.
Gan, G., “Evaluation of room air distribution systems using computational fluid dynamics,” Energy and Buildings, Vol. 23, 1995, pp. 83-93.
Heldman, D. R., Hall, C. W., Hedrick, T. I., “Influence of ventilation rate on air turbulence in food-packaging areas,” TRANSACTIONS of the ASAE, 1969.
Heldman, D. R., “Relationships between aerosol dispersion and air turbulence in a food packaging area,” TRANSACTIONS of the ASAE, 1970.
Hoang, M. L., Verboven, P., Baerdemaeker, J. D., and Nicolai, B. M., “Analysis of air flow in a cold store by means of computational fluid dynamics,” Int. J. of Refrig., Vol. 23, 2000, pp. 127-140.
Hu, Z., and Sun, D. W., “Effect of fluctuation in inlet airflow temperature on CFD simulation of air-blast chilling process,” J. of Food Eng., Vol. 48, 2001, pp. 311-316.
Ince, N. Z., and Launder, B. E., “Three-dimensional and heat-loss effects on turbulent flow in a nominally two-dimensional cavity,” Int. J. Heat and Fluid Flow, Vol. 16, 1995, pp. 171-177.
Jolly, P. G., Tso, C. P., Wong, Y. W., and Ng, S. M., “Simulation and measurement on the full-load performance of a refrigeration system in a shipping container,” Int. J. of Refrig., Vol. 23, 2000, pp. 112-126.
Laslandes, S., Sacré, C., “Transport of particles by a turbulent flow around an obstacle- a numerical and a wind tunnel approach,” J. of Wind Eng., Vol. 74-76, 1998, pp. 577-587.
Mathews, E. H., and Claassen, D. T., “Problems with the T-method,” Building and Emironment, Vol. 33, 1998, pp. 173-179.
Mirade, P. S., and Daudin, J. D., “A new experimental method for measuring and visualizing air flow in large food plants,” J. of Food Eng., Vol. 36, 1998, pp. 31-49.
Moueddeb, K. E., Barrington, S., and Barthakur, N., “Perforated ventilation ducts: Part 2, Validation of an Air Distribution Model,” Silsoe Research Institute, Vol. 98, 1997, pp. 29-37.
Moureh, J., and Derens, E., “Numerical modeling of the temperature increase in frozen food packaged in pallets in the distribution chain,” Int. J. of Refrig., Vol. 23, 2000, pp. 540-552.
Neale, M. A., Lindsay, R. T., Messer, H. J., “Cooling produce in large pallet-based boxes,” Journal Agricultural Engineering Res., Vol. 20, 1975, pp. 235-243.
Neale, M. A., Lindsay, R. T., Messer H. J., 1981, “An experimental cold store for vegetables,” Journal Agricultural Engineering Res., Vol. 26, 1981, pp. 529-540.
Netsal, and Associates, T-method Duct System Simulator: User’s Guide,Ver. 3, 1993, California.
Nielsen, P. V., “The selection of Turbulence Models for Prediction of Room Airflow,” ASHRAE Transactions: Symposia, 1998, pp. 1119-1127.
Raskin, J., “Coanda effect: understanding why wings work,” The Humane Interface, http://www.jefraskin.com/forjef2/jefweb-compiled/publis -hed/coanda effect.html.
Reynoso, R. O., Michelis, A. De, “Parameters affecting freezing, storage and transport of individually frozen schoeneman raspberries,” Int. J. of Refrig., Vol. 17, 1994, No. 3, pp. 209-213.
Scott, G., and Richardson, P., “The application of computational fluid dynamics in the food industry,” Trends in Food Science & Technology, Vol. 8, April 1997, pp. 119-124.
Shinichi, Y., Takashi, U., Toshihiko, U., “Numerical simulation of the high Reynolds number slit nozzle gas-particle jet using subgrid-scale coupling large eddy simulation,” Chemical Engineering Science, Vol. 56, 2001, pp. 4293-4307.
Tannehill, J. C., Anderson, D. A., and Pletcher, R. H., Computational Fluid Mechanics and Heat Transfer, 2nd ed., Taylor & Francis, Philadelphia, 1997.
Utnes, T., and Ren G., “Numerical prediction of turbulent flow around a three-dimensional surface-mounted obstacle,” Appl. Math. Modeling, Vol. 19, January 1995, pp. 7-12.
Van der Ree, H., Basting, W. J., Nievergeld, P, G. M., “Prediction of temperature distribution in cargoes with the aid of a computer program using the method of finite elements,” I. I. F. –I. I. R. Commission D2, Wageningn the Netherlands, 1974, pp. 195-220.
Van Gerwen, R. J. M., Van Oort, H., “Optimization of cold store design using fluid dynamics models,” I. I. F. –I. I. R. Commission, B2, C2, D1, D2/3, Dresden, 1990, pp. 473-478.
Verboven, P., Scheerlinck, N., Baerdemaeker, J. D., and Nicolai, B. M., “Computation fluid dynamics modeling and validation of the isothermal airflow in a forced convection oven,” J. of Food Eng., Vol. 43, 2000, pp. 41-53.
Verboven, P., Scheerlinck, J., Baerdemaeker, J. D., and Nicolaï, B. M., “Sensitivity of the food center temperature with respect to the air velocity and the turbulence kinetic energy,” J. of Food Eng., Vol. 48, 2001, pp. 53-60.
Ventilation principles, http://www.pyrox.com/new/tutor/tutor05.html.
Wang, H., and Touber, S., “Distributed dynamic modeling of a refrigerated room,” Int. J. of Refrig., Vol. 13, July 1990, pp. 214-222.
Wang, L., and Sun, Da-Wen., “Evaluation of performance of slow air, air blast and water immersion cooling methods in the cooked meat industry by the finite element method,” J. of Food Eng., Vol. 51, 2002, pp. 329-340.
Weathers, J. W., and Spitler, J. D., ”A comparative study of room airflow: Numerical prediction using computational fluid dynamics and full-scale experimental measurements,” ASHRAE Transactions: Research, 1993, pp. 144-157.
Yuu, S., Ueno, T., and Umekage, T., “Numerical simulation of the high Reynolds number slit nozzle gas-particle jet using subgrid-scale coupling large eddy simulation,” Chemical Engineering Science, Vol. 56, 2001, pp. 4293-4307.
Zehua, H., and Da-Wen, S., “Effect of fluctuation in inlet airflow temperature on CFD simulation of air-blast chilling process,” J. of Food Eng., Vol. 48, 2001, pp. 311-316.
江懷德, “室內空氣的分布,” 機械月刊第20卷第7期, 1994。
江懷德, “管路元件的阻抗特性,” 機械月刊第19卷第12期, 1993。
李允中、劉兆仁, ”組合式冷藏庫流場的量測與模擬,” 冷凍冷藏技術研討會, 5月, 1995。
李延青、鄭名山、郭儒家, “噴流於低溫冷凍自動倉庫應用探討,” 工研院能資所(內部發表), 2000。
胡石敏,“冷凍庫氣流模擬研究,” 中國冷凍空調雜誌,pp. 95-101, 6月,1994。
陳彥宏,低溫自動化倉儲系統之實驗量測與電腦模擬研究,碩士論文,中央大學機械工程研究所, 2001。
陳漢興、胡石敏、郭儒家, “計算流體力學(CFD)軟體PHOENICS於冷凍工程中的應用實例,” 中國冷凍空調雜誌,8月,1996。
蕭介宗、盧福明、雷鵬魁, “台灣主要蔬菜冷藏方式之研究和改善工程分析,” 中國農業工程學報30(1),pp. 65-80, 1984。
孫朝棟,食品工程學,藝軒圖書,初版,pp. 248-268, 1987。 |