Energy‐efficient hybrid A/C and freshwater production system proposed for high latent load spaces
Int J Energy Res. • 2019
Publication Information
Authors
Sameh A. Nada, Hassan F. Elattar, Ali Fouda
Keywords
hybrid air conditioning, freshwater production, high latent load, heat recovery, performance enhancement
Journal
Int J Energy Res.
Publisher
Wiley
Volume
Not Available
Issue
Not Available
Pages
Not Available
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
Huge amount of energies is consumed by the air conditioning (A/C) to maintain
the required temperature and humidity inside spaces/applications of high
humidly. An innovative A/C system that recovers the condenser heat in process
air reheating and other useful thermal utilization is presented and investigated
in this paper. For high coefficient of performance (COP) of the AC and
more energy‐efficient system, the cold exhaust air rejected by the air condition
system is also utilized to cool the condenser of the AC system. Huge amount of
the water condensate from the system is also utilized as freshwater production.
Performance of the proposed system is analytically investigated for different
operating conditions and system capacities. Mathematical model of the systems
is developed and solved numerically using Engineering Equation Solver (EES)
software. Results show that the proposed system enhances the COP and
decreases the electric power consumption. The saving in electric power consumption,
COP, and the freshwater production rate of the system increases
with decreasing room‐sensible heat factor, fresh air ratio, and outdoor air temperature
and humidity. Moreover, the COP of the proposed system is 90%
higher than COP of the basis system, and the savings in the running cost of
the system increase by 4.5 times with decreasing the room‐sensible heat factor
(RSHF) from 0.6 to 0.2. In addition, the highest COP attained by the proposed
system is 2.72, and the corresponding freshwater production rate is 373.8 kg/h.
the required temperature and humidity inside spaces/applications of high
humidly. An innovative A/C system that recovers the condenser heat in process
air reheating and other useful thermal utilization is presented and investigated
in this paper. For high coefficient of performance (COP) of the AC and
more energy‐efficient system, the cold exhaust air rejected by the air condition
system is also utilized to cool the condenser of the AC system. Huge amount of
the water condensate from the system is also utilized as freshwater production.
Performance of the proposed system is analytically investigated for different
operating conditions and system capacities. Mathematical model of the systems
is developed and solved numerically using Engineering Equation Solver (EES)
software. Results show that the proposed system enhances the COP and
decreases the electric power consumption. The saving in electric power consumption,
COP, and the freshwater production rate of the system increases
with decreasing room‐sensible heat factor, fresh air ratio, and outdoor air temperature
and humidity. Moreover, the COP of the proposed system is 90%
higher than COP of the basis system, and the savings in the running cost of
the system increase by 4.5 times with decreasing the room‐sensible heat factor
(RSHF) from 0.6 to 0.2. In addition, the highest COP attained by the proposed
system is 2.72, and the corresponding freshwater production rate is 373.8 kg/h.
Staff Members - Benha University