Environmental Engineering Reference
In-Depth Information
of Energy, website: http://apps1.eere.energy.gov/buildings/energyplus/cfm/weather_data2.
cfm/region=2_asia_wmo_region_2.
DOE (2011b) Weather Data, All Regions: Southwest Pacific WMO Region 5, EnergyPlus
Energy Simulation Software, Energy Efficiency and Renewable Energy, U. S. Department
of Energy, website: http://apps1.eere.energy.gov/buildings/energyplus/cfm/weather_data2.
cfm/region=5_southwest_pacific_wmo_region_5.
EC (2011) Study on Photovoltaic Panels Supplementing the Impact Assessment for a Recast of
the WEEE Directive - Final Report , European Commission DG ENV, 14 April 2011.
Eicker, U. (2003) Solar Technologies for Buildings . Chichester: Wiley.
Eicker, U. (2009) Low Energy Cooling for Sustainable Buildings . Chichester: Wiley.
Enteria, N., Yoshino, H., Mochida, A., Takaki, R., Satake, A., Yoshie, R., Teruaki, M. and
Baba, S. (2009) Construction and initial operation of the combined solar-thermal and electric
desiccant cooling system. Solar Energy , 83, 1300-1311.
Fong K.F. and Chow T.T. (2007) Application potential of solar-assisted desiccant cooling system
in sub-tropical Hong Kong. In: Proceedings of Clima 2007 WellBeing Indoors, June 10-14,
2007 Helsinki, Finland.
Fong, K.F., Chow, T.T., Lee, C.K., Lin, Z. and Chan, L.S. (2010a) Comparative study of different
solar cooling systems for buildings in subtropical city. Solar Energy , 84, 227-244.
Fong, K.F., Chow, T.T., Lee, C.K., Lin, Z. and Chan, L.S. (2010b) Advancement of solar
desiccant cooling system for building use in subtropical Hong Kong. Energy and Buildings ,
42, 2386-2399.
Fong, K.F., Lee, C.K., Chow, T.T., Lin, Z. and Chan, L.S. (2010c) Solar hybrid air-
conditioning system for high temperature cooling in subtropical city. Renewable Energy , 35,
2439-2451.
Fong, K.F., Chow, T.T., Lee, C.K., and Lin, Z. and Chan, L.S. (2011a) Solar hybrid cool-
ing system for high-tech offices in subtropical climate - Radiant cooling by absorption
refrigeration and desiccant dehumidification. Energy Conversion and Management , 52,
2883-2894.
Fong, K.F., Lee, C.K., Lin, Z., Chow, T.T. and Chan, L.S. (2011b) Application potential
of solar air-conditioning systems for displacement ventilation. Energy and Buildings , 43,
2068-2076.
Fong, K.F., Lee, C.K., Chow, T.T. and Fong, A.M.L. (2011c) Investigation on solar hybrid
desiccant cooling system for commercial premises with high latent cooling load in subtropical
Hong Kong. Applied Thermal Engineering , 31, 3393-3401.
Ge, T.S., Li, Y., Dai, Y.J. and Wang, R.Z. (2010) Performance investigation on a novel
two-stage solar driven rotary desiccant cooling system using composite desiccant materials.
Solar Energy , 84, 157-159.
Gottessfeld, P. and Cherry, C.R. (2011) Lead emissions from solar photovoltaic energy systems
in China and India. Energy Policy , 39, 4939-4946.
Henning, H.-M., (2004) Solar-Assisted Air-Conditioning in Buildings, A Handbook for
Planners . Springer-Verlag: Vienna and New York.
Huang, B.J., Wu, J.H., Hsu, H.Y. and Wang, J.H. (2010) Development of hybrid solar-assisted
cooling/heating system. Energy Conversion and Management , 51, 1643-1650.
IEA (2007) Renewables for Heating and Cooling, Untapped Potential . International Energy
Agency, IEA Publications, November 2007.
IEA
(2010) World Energy Outlook 2010 ,
International
Energy
Agency,
website:
http://www.iea.org/weo/index.asp.
IEA (2011) Solar Heat Worldwide, Markets and Contribution to the Energy Supply 2009 , Solar
Heating & Cooling Programme, International Energy Agency, 2011 edition.
IEA (2012) Solar Heating and Cooling Programme, International Energy Agency , website:
http://www.iea-shc.org.
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