Environmental Engineering Reference
In-Depth Information
Hao, X., Zhang, G., Chen, Y., Zou, S. and Moschandreas, J. (2007) A combined system of chilled
ceiling, displacement ventilation and desiccant dehumidification.
Building and Environment
,
42, 3298-3308.
Harse, Y., Utikar, R., Ranade, V. and Pahwa, D. (2005) Modeling of rotary desiccant wheel.
Chemical Engineering Technology
, 28, 1473-1479.
Hellman, H.M. (2002) Carnot-COP for sorption heat pumps working between four temperature
levels.
International Journal of Refrigeration
, 25, 66-74.
Henning, H.M. (2007) Solar assisted air conditioning of building - an overview.
Applied Thermal
Engineering
, 27, 1734-1749.
Henning, H.M., Erpenbeck, T., Hindenburg, C. and Santamaria, I.S. (2001) The potential
of solar energy use in desiccant cooling cycles.
International Journal of Refrigeration
, 24,
220-229.
Henning, H.M., Pagano, T., Mola, S. and Wiemken, E. (2007) Micro tri-generation system
for indoor air conditioning in the Mediterranean climate.
Applied Thermal Engineering
, 27,
2188-2194.
Henning, S., Dhar, P.L. and Kaushik, S.C. (1995) Evaluation of solid-desiccant-based evapora-
tive cooling cycles for typical hot and humid climates.
International Journal of Refrigeration
,
18, 287-296.
Hirunlabh, J., Charoenwat, R., Khedari, J. and Teekasap, S. (2007) Feasibility study of desiccant
air-conditioning system in Thailand.
Building and Environment
, 42, 572-577.
IEA. (2004)
World Energy Outlook
. International Energy Agency, Paris, France.
IEA. (2008)
Key World Energy Statistics
. International Energy Agency, Paris, France.
IPCC.
IPCC/TEAP Special Report. Special Report on Safeguarding the Ozone Layer
and the Global Climate System
.
Intergovernmental
Panel
on
Climate
Change.
http://www.ipcc.ch/pdf/special-reports/sroc/sroc_full.pdf
Jain, S., Dhar, P.L. and Kaushik, S.C. (1995) Evaluation of solid-desiccant-based evaporative
cooling cycles for typical hot and humid climates.
International Journal of Refrigeration
, 18,
287-296.
Jain, S. and Bansal, P.K. (2007) Performance analysis of liquid dehumidification systems.
International Journal of Refrigeration
, 30, 861-872.
Jia, C.X., Dai, Y.J., Wu, J.Y. and Wang, R.Z. (2006) Analysis on a hybrid desiccant
air-conditioning system.
Applied Thermal Engineering
, 26, 2393-2400.
Joudi, K.A. and Madhi, S.M. (1987) An experimental investigation into a solar assisted
desiccant-evaporative air-conditioning system.
Solar Energy
, 39, 97-107.
Jurinak, J.J., Mitchell, J.W. and Beckman, W.A. (1984) Open-cycle desiccant air conditioning
as an alternative to vapor compression cooling in residential applications.
Journal of Solar
Energy Engineering
, 106, 252-260.
Kabeel, A.E. (2007) Solar powered air conditioning system using rotary honeycomb desiccant
wheel.
Renewable Energy
, 32, 1842-1857.
Kang, T. and Maclaine-Cross, I. (1989) High performance solid desiccant, open cooling cycles.
Journal of Solar Energy Engineering
, 111, 176-183.
Katejanekarn, T., Chirarattananon, S., and Kumar, S. (2009) An experimental study of a
solar-regenerated liquid desiccant ventilation pre-conditioning system.
Solar Energy
, 83,
920-933.
Kessling, W., Laevemann, E. and Kapfhammer, C. (1998) Energy storage for desiccant cooling
systems components development.
Solar Energy
, 64, 209-221.
Khalid, A., Mahmood, M., Asif, M. and Muneer, T. (2008) Solar assisted, pre-cool hybrid
desiccant cooling system for Pakistan.
Renewable Energy
, 34, 151-157.
Khalid Ahmed, C.S., Gandhidasan, P. and Al-Farayedhi, A.A. (1997) Simulation of a
hybrid liquid desiccant based air-conditioning system,
Applied Thermal Engineering
, 18,
125-134.
Search WWH ::
Custom Search