Abstract:
Globally demand for energy increases, and there are many attempts to reduce
energy consumption from air conditioning. At present, around 15% of total global
energy is consumed by buildings and out of that, nearly 50% of energy is accounted
by the air conditioning systems. Therefore this research focused on a novel system
to improve the coefficient of performance (COP) of conventional compressionbased
air conditioning systems by the use of passive cooling. The technique
involves condenser passive cooling in order to lower the condenser temperature,
with the objective of increasing the efficiency of the system. Condensate water
recovered at the evaporator was sent via a pipe heat exchanger across which
condenser cooling air is drawn using the regular condenser cooling fan. This results
in reduced compressor work and improved cooling. Based on this concept,
theoretical calculations were conducted and it was found out that around 10% of
overall energy saving can be achieved. The system was implemented on a real air
conditioner having 1 ton capacity and a series of experiments were conducted to
find the overall compressor off times indicating a direct energy saving. It was found
out that in agreement with the theoretical calculations, the experiments also
produced from 5%-10% of energy consumption reduction when the evaporator
temperature was set around 25 °C. This concept is fundamentally applicable for any
air conditioning system running on compression refrigeration. In future this system
needs to be further improved in order to be applicable for different capacities and
designs of air conditioning systems which are available in the market.
