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NTIS 바로가기설비공학논문집 = Korean journal of air-conditioning and refrigeration engineering, v.19 no.8, 2007년, pp.569 - 576
정재동 (세종대학교 기계공학과) , 이대영 (한국과학기술연구원) , 윤석만 (한국지역난방공사 기술연구소)
The desiccant rotor is the most essential component of desiccant cooling system, but one of its drawbacks to spread out is rotor size. To reduce the size of rotor the analysis of rotor performance is crucial. Systematic examination on the effect of desiccant and channel geometries has been conducted...
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Daou, K. Wang, R. Z. and Xia, Z. Z., 2006, Desiccant cooling air conditioning: A review, Renewable and Sustainable Energy Reviews, Vol.10, pp. 55-77
Jain, S. and Dhar, P. L., 1995, Evaluation of solid desiccant-based evaporative cooling cycles for typical hot and humid climates, Int. J. Refrig., Vol.18, pp. 287-296
Halliday, S. P., Beggs, C. B. and Sleigh, P. A, 2002, The use of solar desiccant cooling in the UK: a feasibility study, Appl. Thermal Engng., Vol. 22, pp. 1327-1338
Dai, Y.J., Wang, R. Z., Zhang, H. F. and Yu, J. D., 2001, Use of desiccant cooling to improve the performance of vapour compression air conditioning, Appl. Thermal. Engng., Vol. 21, pp. 1185-1205
Mazzei, P., Minichiello, F. and Palma, D., 2002, Desiccant HVAC systems for commercial buildings, Appl. Thermal Engng., Vol. 22, pp. 545-560
Henning, H.-M., Erpenbeck, T., Hindenburg, C. and Santamaria, I. S., 2001, The potential of solar energy use in desiccant cycles, Int.J. Refrig., Vol. 24, pp. 220-209
Aristov, Yu.I., Tokarev, M. M., Gordeeva, L.G., Snytnikov, V. N. and Parmon, V. N., 1999, New composite sorbents for solar driven technology of fresh water production from atmosphere, Solar Energy, Vol. 66, pp. 165-168
Liu, Y. F. and Wang, R. Z., 2003, Pore structure of new composite $SiO_{2}$ . $xH_{2}O$ . $yCaCl_{2}$ with uptake of water air, Sci. China, Vol. 46, pp. 551-559
Zheng, W. and Worek, W. M., 1993, Numerical simulation of combined heat and mass transfer processes in a rotary dehumidifier, Numerical Heat Transfer, A23, pp. 211-232
Dai, Y.J., Wang, R. Z. and Zhang, H. F., 2001, Parameter analysis to improve rotary desiccant dehumidification using a mathematical model, Int. J. Therm. Sci., Vol. 40, pp. 400-408
Sphaier, L. A and Worek, W. M., 2004, Analysis of heat and mass transfer in porous sorbents used in rotary regenerators, Int. J. Heat Mass Transfer, Vol. 47, pp. 3415- 3430
Chung, J. D., Lee, D.-Y. and Yoon, S. M., 2007, Optimization of the area ratio of regeneration to dehumidification and rotor speed on the condition of low regeneration temperature, Korean Journal of Air-Conditioning and Refrigeration Engineering, Vol. 19, pp. 521-528
Gao, Z., Mei, V. C. and Tomlinson, J.J., 2005, Theoretical analysis of dehumidification process in a desiccant wheel, Heat Mass Transfer, Vol. 41, pp. 1033-1042
Zhang, L. Z. and Niu, J. L., 2001, A numerical study of laminar forced convection in sinusoidal ducts with arc lower boundaries under uniform wall temperature, Numerical Heat Transfer A, Vol. 40, pp. 55-72
Handbook of Single-Phase Convective Heat Transfer, John Wiley & Sons, Inc. 1987, Editted by Kakac, S., Shah, R. K. and Aung, W
Faust, S, Guido, F. and Lee, D.-Y., 2007, Desiccant element and manufacturing method of the same, Korea Patent 0704235
Lee, D.-Y., Lee, G. and Kim, M. S., 2007, A proposal for new definition of performance indices of a desiccant rotor, Korean Journal of Air-Conditioning and Refrigeration Engineering, Vol. 19, pp. 537-544
Simonson, C.J. and Besant, R. W., 1999, Energy wheel effectiveness: Part II-Correlations, International Journal of Heat and Mass Transfer, Vol. 42, pp. 2171-2185
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