1 |
Arab, M. and Abbas, A. (2013), "Model-based design and analysis of heat pipe working fluid for optimal performance in a concentric evacuated tube solar water heater", Sol. Energy, 94, 162-176.
DOI
|
2 |
Ayompe, L.M. and Duffy, A. (2013), "Thermal performance analysis of a solar water heating system with heat pipe evacuated tube collector using data from a field trial", Sol. Energy, 90, 17-28.
DOI
|
3 |
Azad, E. and Bahan, F. (1991), "The thermal performance of a co-axial heat pipe solar collector", J. Inst. Energy, 64, 107-112.
|
4 |
Azad, E., Bahar, F. and Moztarzadeh, F. (1987), "Solar water heater using gravity assisted heat pipe", Heat Recov. Syst. CHP, 7(4), 343-350.
DOI
|
5 |
Biencinto, M., Gonzalez, L. and Valenzuela, L. (2016), "A quasi-dynamic simulation model for direct steam generation in parabolic troughs using TRNSYS", Appl. Energy, 161, 133-142.
DOI
|
6 |
Cabrera, F.J., Fernandez-Garcia, A., Silva, R.M.P. and Perez-Garcia, M. (2013), "Use of parabolic trough solar collectors for solar refrigeration and air-conditioning applications", Renew. Sustain. Energy Rev., 20, 103-118.
DOI
|
7 |
Chi, S.W. (1976), Heat Pipe-Theory and Practice: A Source Book, Hemisphere Publishing Corporation.
|
8 |
Chong, K.K., Chay, K.G. and Chin, K.H. (2012), "Study of a solar water heater using stationary v-trough collector", Renew. Energy, 39(1), 207-215.
DOI
|
9 |
Chun, W., Kang, Y.H., Kwak, H.Y. and Lee, Y.S. (1999), "An experimental study of the utilization of heat pipes for solar water heaters", Appl. Therm. Eng., 19(8), 807-817.
DOI
|
10 |
Conrado, L.S., Rodriguez-Pulido, A. and Calderon, G. (2017), "Thermal performance of parabolic trough solar collectors", Renew. Sustain. Energy Rev., 67, 1345-1359.
DOI
|
11 |
Duffie, J.A. and Beckman, W.A. (2013), "Solar engineering of thermal processes", Renew. Sustain. Energy Rev., 54, 1085-1091.
|
12 |
Gari, H.A. and Fathalah, K.A. (1988), "Modeling and simulation of a passive condensate heat pipe pumping system for solar energy applications", Heat Recov. Syst. CHP, 8(6), 559-569.
DOI
|
13 |
Ghaddar, N. and Nasr, Y. (1998), "Experimental study of a refrigerant charged solar collector", J. Energy Res., 22, 625-638.
DOI
|
14 |
Guo, J., Huai, X. and Liu, Z. (2016), "Performance investigation of parabolic trough solar receiver", Appl. Therm. Eng., 95, 357-364.
DOI
|
15 |
Hachicha, A.A., Rodriguez, I., Capdevila, R. and Oliva, A. (2013), "Heat transfer analysis and numerical simulation of a parabolic trough solar collector", Appl. Energy, 111, 581-592.
DOI
|
16 |
Hussein, H.M.S., Mohamad, M.A. and El-Asfouri, A.S. (1999), "Optimization of a wickless heat pipe flat plate solar collector", Energy Convers. Manage., 40(18), 1949-1961.
DOI
|
17 |
Ismail, K.A.R. and Zanardi, M.A. (1990), "Cylindrical parabolic solar collector with heat pipe absorber", Proceedings of the World Renewable Energy Congress, Reading, UK, 2, 1242-1246.
|
18 |
Ismail, K.A.R. and Zanardi, M.A. (1993), "Experimental verification of a two-dimensional model for porous wicked heat pipes", Proceedings of the III World Conference on Experimental Heat Transfer, Fluid Mechan. Thermodyn., Honolulu, Hawaii, 427-432.
|
19 |
Jebasingh, V.K. and Herbert, G.M.J. (2016), A Review of Solar Parabolic Trough Collector, 4th Edition, John Wiley & Sons, Inc.
|
20 |
Kim, Y. and Seo, T. (2007), "Thermal performances comparisons of the glass evacuated tube solar collectors with shapes of absorber tube", Renew. Energy, 32(5), 772-795.
DOI
|
21 |
Kreith, F., Manglik, R.M. and Bohn, M.S. (2011), Principles of Heat Transfer, 7th Edition, Cengage Learning Inc.
|
22 |
Kumar, K.R. and Reddy, K.S. (2009), "Thermal analysis of solar parabolic trough with porous disc receiver", Appl. Energy, 86(9), 1804-1812.
DOI
|
23 |
Liang, H., You, S. and Zhang, H. (2015), "Comparison of different heat transfer models for parabolic trough solar collectors", Appl. Energy, 148, 105-114.
DOI
|
24 |
McAdams, W.J. (1954), Heat Transmission, 3rd Edition, McGraw Hill.
|
25 |
McKinney, B.G. (1969), "An experimental and analytical study of water heat pipes for moderate temperature ranges", NASA TM-53849.
|
26 |
Nkwetta, D.N., Smyth, M., Zacharopoulos, A. and Hyde, T. (2012), "In-door experimental analysis of concentrated and non-concentrated evacuated tube heat pipe collectors for medium temperature applications", Energy Build., 47, 674-681.
DOI
|
27 |
Ortobasi, U. and Buehl, W.M. (1980), "An internal cusp reflector for an evacuated tubular heat pipe solar thermal collector", Sol. Energy, 25(1), 67-78.
DOI
|
28 |
Padilla, R.V., Demirkaya, G., Goswami, D.Y., Stefanakos, E. and Rahman, M.M. (2011), "Heat transfer analysis of parabolic trough solar receiver", Appl. Energy, 88(12), 5097-5110.
DOI
|
29 |
Redpath, D.A.G., Eames, P.C., Lo, S.N.G. and Griffths, P.W. (2009), "Experimental investigation of natural convection heat exchange within a physical model of the manifold chamber of a thermo-syphon heat pipe evacuated tube solar water heater", Sol. Energy, 83(7), 988-997.
DOI
|
30 |
Ratzel, A.C., Hickox, C.E. and Gartling, D.K. (1979), "Techniques for reducing thermal conduction and natural convection heat losses in annular receiver geometries", J. Heat Transf., 101(1), 108-113.
DOI
|
31 |
Tien, C.L. and Rohani, R. (1972), "Theory of two component heat pipe", J. Heat Transf., 94(4), 479-484.
DOI
|
32 |
Umarov, G.I., Zakhidov, R.A. and Khodzhaev, A.S. (1976), "Radiant vector distribution in the radiant field of a parabolic cylindrical concentrator", Geliotekhnika, 12, 27-32.
|
33 |
Vafai, K. and Tien, C.L. (1981), "Boundary and inertia effects on flow and heat transfer in porous media", J. Heat Mass Transf., 24(2), 195-203.
DOI
|
34 |
Vasiliev, L.L., Grakovich, L.P. and Khrustaler, D.K. (1984), "Optimization of flat plate solar energy heat pipe collector parameters", Heat Recov. Syst. CHP, 1(3), 157-164.
|
35 |
Wang, Y., Zhu, Y., Chen, H., Zhang, X., Yang, L. and Liao, C. (2015), "Performance analysis of a novel sun-tracking CPC heat pipe evacuated tubular collector", Appl. Therm. Eng., 87, 381-388.
DOI
|
36 |
Ramsey, J.W., Gupta, B.P. and Knowles, G.R. (1977), "Experimental evaluation of a cylindrical parabolic solar collector", J. Heat Transf., 99(2), 163-168.
DOI
|
37 |
Wong, H.H. and Raithby, G.D. (1979), "Improved finite difference methods based on critical evaluation of the approximation errors", Numer. Heat Transf., 2(2), 139-163.
DOI
|
38 |
Zou, B., Dong, J., Yao, Y. and Jiang, Y. (2016), "An experimental investigation on a small-sized parabolic trough solar collector for water heating in cold areas", Appl. Energy, 163, 396-407
DOI
|