Abstract
Wraparound heat pipes have been used for many years and have found a niche application in outside air handling units in hot and humid climates. They are used in conjunction with primary, chilled water cooling coils to enhance the efficiency of moisture removal and ensure that the process consumes minimal energy. The type of heat pipe employed is a gravity assisted thermosyphon which is formed into a loop and ‘wrapped’ around the main cooling coil.The traditional working fluid for HVAC heat pipes has been a refrigerant and a replacement fluid is desirable as a short and long-term option. From an environmental standpoint, water is an ideal candidate and many of its thermal transport properties suggest that it should be viable. There are manufacturing issues associated with using water which are not the concern of this paper; the paper's intention is to prove the viability of water and compare its performance with that of traditional refrigerants.At the conditions used for the experimentation, the results suggest that the use of water in a loop heat pipe can enhance the effectiveness of the arrangement by up to 18% when compared with a conventional refrigerant filled pipe.The type of thermosyphon, or gravity-assisted heat pipe, that is under consideration has a performance which can be quantified using an effectiveness model. This model has been used in the investigation to compare the performance of identical pipes filled with different working fluids. The effectiveness of the heat pipe is determined by many variables and a good proportion of these are related simply to tube orientation, size and flow path. The application of wraparound heat pipes that is under consideration relies upon specific sizes and orientations of tubes and the conclusions of the report give pointers towards further research which needs to be undertaken, or is currently underway, in order to determine the extents of applicability of water as a working fluid.
Highlights
The ventilation of occupied spaces subject to hot and humid climates consumes vast quantities of energy
The moisture load is extremely high with external moisture contents of up to 25 g/kg being common
In order to refresh the internal air with air at a lower moisture content, chillers and cooling equipment must be sized to deal with these exceptionally high latent loads
Summary
The ventilation of occupied spaces subject to hot and humid climates consumes vast quantities of energy. Ahmadzadehtalatapeh and Yau [4e6] reviewed the system performance and enhancements associated with the introduction of the heat pipes based on R134a as the working fluid and concluded that energy savings and enhanced dehumidification are achieved. Refrigerants were identified as ideal working fluids for heat pipes, operating at temperatures common to air conditioning applications, around 30 years ago. The replacement working fluid must have low GWP to minimise environmental damage, high heating and cooling capacities and zero ozone depletion potential (ODP), making it very challenging to find a replacement fluid, in heat pipes but for air conditioning systems in general. Water has thermal transport properties which make it suitable as a heat pipe working fluid though its applicability across a temperature range in different heat pipe manifestations has not been fully developed. The proposed heat pipe was charged with distilled water and tested within HVAC systems operating in hot and humid conditions
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