References not located
FLOW DISTRIBUTION IN UNGLAZED TRANSPIRED PLATE SOLAR
AIR HEATERS OF LARGE AREA L. H. GUNNEWIEK, E. BRUNDRETT and K. G. T. HOLLANDS
Cao S., Hollands K. G. T. and Brundrett E. (1993). Heat exchange effectiveness of
unglazed transpired-plate solar collector in 21) flow. Proc. ISES World Congress, 23-27
August, Budapest, Hungary, Hungarian Energy Society, Budapest, pp. 361-366.
Carpenter S. C. and Kokko J. P. (1991). Performance of solar preheated ventilation air
systems. Proc. Annual Conf. of Solar Energy Sot. of Canada, 21-26 June, Toronto,
Canada. Solar Energy Society of Canada, Inc., Ottawa, pp. 261-265.
Dymond C. S. and Kutscher C. F. (1995). A computer design model for transpired solar
collector systems. Proc. ASMEIJSMEIJSES lnt. Solar Energy Conf., Maui, HA,
U.S.A., March 1995. American Society of Mechanical Engineers, New York, Vol. 2, pp.
1165-1174.
Golneshan A. (1994). Forced convection heat transfer from low porosity slotted
transpired plates, PhD Thesis, University of Waterloo, Waterloo, Canada.
Gunnewiek L. H. (1994). An investigation of the flow distribution through unglazed
transpired-plate solar air heaters, MASc Thesis, University of Waterloo, Waterloo,
Canada.
Kokko J. P. and Marshal S. (1992). Performance of the next generation of solarwalls.
Proc. of the Annual Conf. of the Solar Energy Sot. of Canada, 4-8 July, Edmonton,
Canada. Solar Energy Society of Canada, Inc., Ottawa, pp. 201-205.
DEVELOPMENT OF A FLOW DISTRIBUTION AND DESIGN MODEL
FOR TRANSPIRED SOLAR COLLECTORS C. DYMOND * and C. KUTSCHER
Dymond C. S. (1994) A model of the air flow and temperature distribution of an
unglazed transpired solar collector. Master's Thesis, University of Colorado, Boulder,
Colorado, U.S.A.
Gunnewiek L. H. (1994) An investigation of the flow distribution through unglazed
transpired-plate solar air heaters. Master's Thesis, University of Waterloo, Waterloo,
Canada.
A Numerical and Experimental Investigation of Low-conductivity Unglazed,
Transpired Solar Air Heaters Gawlik, Christensen, Kutscher
Sparow, E. M., and Ortiz Carrane, M. 1982. “Heat Transfer Coefficients for the Upstream
Face of a Perforated Plate Positioned Normal to an Oncoming Flow”, Int. J. Heat Mass
Transfer, 25(1), pp. 127-135.
Rhee, S. J., and Edwards, D. K., 1983. “Comparison of Test Results for Flat-Plate,
Transpired Flat-Plate, Corrugated, and Transpired Corrugated Solar Air Heaters,” J. Sol.
Energy Eng., 105, pp. 231-236.
Gawlik, K. M., 1995. “A Numerical and Experiment Investigation of Heat Transfer
Issues in the Practical Utilization of Unglazed, Transpired Solar Air Heaters. “ PH.D.
thesis, University of Colorado at Boulder, Boulder, CO.
Christensen, C. B., Kutscher, C. F. and Gawlik, K. M., 1997. “Unglazed Transpired Solar
Collector Having a Low Thermal-Conductance Absorber,” U.S. patent 5,692,491.
Unglazed Transpired Solar Collectors: Heat Loss Theory Kutscher, Christensen, Barker
Arens, E. A., and Williams, P. B., 1977, “The Effect of Wind on Energy Consumption in
Buildings, “Energy and Buildings, Vol. 1, May, pp. 77-84.
Davenport, A. G., and H. Y. L. Hui, 1982, External and Internal Wind Pressures on
Cladding of Buildings, Boundary Layer Wind Tunnel Laboratory, The University of
Western Ontario, London, Ontario, BLWT-820133.
Dutton, R. A., 1960, “The Effects of Distributed Suction on the Development of
Turbulent Boundary Layers,” Aeronautical Research Council Technical Report, R & M
No. 3155, London.
Gregory, N., 1961, “Research on Suction Surfaces for Laminar flow,” (editor), Boundary
Layer and Flow Control: Its Principles and Application, Vol. 2, G. V. Lachmann, ed.,
Pergamon Press, London, pp. 942-953.
Iglisch, R., 1944, “Exact Calculation of Laminar Boundary Layer in Longitudinal Flow
Over a Flat Plate with Homogeneous Suction,” Technical Memorandum No. 1205,
National Advisory Committee for Aeronautics, Washington, D.C.
Maddaeus, A. D., and Shanebrook, J. R., 1983, “The Three-Dimensional Laminar
Asymptotic Boundary Layer with Suction,” Journal of Engineering Mathematics, Vol.
17, pp. 73-91.
Sparrow, E. M., Ramsey, J. E., and Mass, E. A., 1979, “Effect of Finite Width on Heat
Transfer and Fluid Flow about an Inclined Rectangular Plate,” Journal of Heat Transfer,
Vol. 101, 1979, pp. 199-204.
Sparrow, E. M., and Ortiz, M. Carranco, 1982, “Heat Transfer Coefficients for the
Upstream Face of a Perforated Plate Positioned Normal to an Oncoming Flow,”
International Journal of Heat and Mass Transfer, Vol. 25 No. 1, 1982, pp. 127-135.
Test, F. L., Lessman, R. C., and Johary A., “Heat Transfer During Wind Flow over
Rectangular Bodies in the Natural Environment,” Journal of Heat Transfer, Vol. 103,
May 1981, pp. 262-267.
Verrolet, E., et.al., 1972, “Turbulent Boundary Layer with Suction and Heating to the
Wall, “ Heat and Mass Transfer in Boundary Layers, Vol. 1, Pergamon Press, Oxford,
U.K., pp. 157-168.
Wind Heat Loss from Corrugated, Transpired Solar Collectors Gawlik, Kutscher
Iglisch, R., 1944, “Exact Calculation of Laminar Boundary Layer in Longitudinal Flow
Over a Flat Plate with Homogeneous Suction,” Technical Memorandum No. 1205,
National Advisory Committee for Aeronautics, Washington, D.C.
Maddaeus, A. D., and Shanebrook, J. R., 1983, “The Three-Dimensional Laminar
Asymptotic Boundary Layer with Suction,” J. Eng. Math., Vol. 17, pp. 73-91.
Bordner, Gary L., 1978, “Nonlinear Analysis of Laminar Boundary Layer Flow Over a
Periodic Wavy Surface-Part II: Long Waves,” Phys. Fluids. Vol. 23, pp. 858-863.
Ho. R. T., and Gelhar, L. W., 1973, “Turbulent Flow with Wavy Permeable Boundaries,”
J. Fluid Mech. Vol. 58, Pt 2, pp. 403-414.
Mathematical modeling and thermal performance analysis of unglazed transpired
solar collectors M. Augustus Leon and S. Kumar
Cao et al., 1993 Cao, S., Hollands, K.G.T., Brundrett, E., 1993. Heat exchange
effectiveness of unglazed transpired-plate solar collector in 2D flow. In: Proceedings of
ISES Solar World Congress 1993, Budapest, Hungary, Vol. 5, pp. 351–366.
Hollands, 1998 Hollands, K.G.T., 1998. Principles of the Transpired-plate air heating
collector: the SOLARWALL, renewable energy technologies in cold climates. In: Annual
Meeting of the Solar Energy Society of Canada Inc. SESCI, Ottawa, pp. 139–144.
Kokko and Marshal, 1992 Kokko, J.P., Marshal, S., 1992. Performance of the next
generation of Solarwalls. In: Proceedings of the Annual Conference of the Solar Energy
Society of Canada, Edmonton, Canada, July 4–8.
Kutscher, 1997 Kutscher, C.F., 1997. Transpired solar collector systems: a major advance
in solar heating. Energy Business Technology Sourcebook. In: Proceedings of the 19th
World Energy Engineering Congress, NREL Report No. 24373, November 6–8, 1996,
Atlanta, Georgia, Chapter 61. pp. 481–489.
Kutscher et al., 1991 Kutscher, C.F., Christensen, C., Barker, G., 1991. Unglazed
transpired solar collectors: an analytic model and test results. In: Proceedings of ISES
Solar World Congress 1991, Elsevier Science, Vol. 2:1. pp. 1245–1250.
Pesaran and Wipke, 1994 A.A. Pesaran and K. Wipke, Use of unglazed transpired solar
collectors for desiccant cooling, Solar Energy Journal 52 (1994) (5), p. 1994.
Van Decker et al., 1996 G.W.E. Van Decker, K.G.T. Hollands and A.P. Brunger, Heat
exchange effectiveness of unglazed transpired-plate solar collector in 3D flow. In: A.
Goietzburger and J. Luther, Editors, Proceedings of EuroSun 96, Freiburg, Germany,
DGS–Sonnen energie Verlags GmbH, Munchen, Germany (1996), pp. 130–846.
Van Decker and Hollands, 1999 Van Decker, G.W.E., Hollands, K.G.T., 1999. An
empirical heat transfer equation for the transpired solar collectors, including no-wind
conditions. In: Proceedings of the ISES 99 Solar World Congress, Australia.