Design and development of a solar refrigeration system
By: Rakhi J F.
Contributor(s): George Mathew (Guide).
Material type:
BookPublisher: Tavanur Department of Food and Agricultural Process Engineering, Kelappaji College of Agricultural Engineering and Technology 2015Description: 88 Pages.Subject(s): Food and agricultural process engineeringDDC classification: 631.56 Online resources: Click here to access online Dissertation note: MTech. Abstract: When solar power, either thermal or photovoltaic, is used to provide
energy to any refrigeration system, it is called as solar refrigeration system. The
main objective of the study was to design and develop a solar absorption
refrigeration system and performance evaluation of the developed system. In this
study 40 L capacity three fluid vapour absorption refrigeration system (VARS)
was designed and a commercially available three fluid absorption refrigerator
working on electricity was procured and modified for using heat energy.
The solar radiation at KCAET Tavanur was measured and it was observed
that a maximum solar radiation intensity of 783.81 W/m2obtained at 1.00 PM at
Tavanur. The performance of the modified VARS was tested using hot water
obtained from solar water heater. It was found that the hot water from the solar
water heater was not sufficient to produce any cooling effect. Hence a hybrid
system using hot water from solar water heater and subsequent heating of the hot
water using other heating sources such as electricity and LPG were utilized and
the hot water was converted to steam at high temperature. Under this new set up
the system worked perfectly and produced refrigeration. The performance of the
modified VARS was then tested in the laboratory under simulated conditions
using water at 100°C, steam at 103°C, 106°C, 116°C and 121°C and using electric
heater. The experiments with low temperatures could not produce any cooling
whereas steam at116°C and 121°C and electric heater at 150°C produced
refrigeration effect. The corresponding generator temperature obtained were
105°C and 110°C and the ice tray temperatures were 6.8°C and 1.9°C. The
temperature obtained in the cabin of the refrigerator was 10.9°C and 8.1°C which
was ideal for keeping fruits vegetables and other perishable items. For effective
working of this system using only on solar energy, instead of flat plate collector, a
solar steam generator that could produce steam can be used.
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Theses
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KAU Central Library, Thrissur Theses | 631.56 RAK/DE (Browse shelf) | Not For Loan | 173495 |
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MTech.
When solar power, either thermal or photovoltaic, is used to provide
energy to any refrigeration system, it is called as solar refrigeration system. The
main objective of the study was to design and develop a solar absorption
refrigeration system and performance evaluation of the developed system. In this
study 40 L capacity three fluid vapour absorption refrigeration system (VARS)
was designed and a commercially available three fluid absorption refrigerator
working on electricity was procured and modified for using heat energy.
The solar radiation at KCAET Tavanur was measured and it was observed
that a maximum solar radiation intensity of 783.81 W/m2obtained at 1.00 PM at
Tavanur. The performance of the modified VARS was tested using hot water
obtained from solar water heater. It was found that the hot water from the solar
water heater was not sufficient to produce any cooling effect. Hence a hybrid
system using hot water from solar water heater and subsequent heating of the hot
water using other heating sources such as electricity and LPG were utilized and
the hot water was converted to steam at high temperature. Under this new set up
the system worked perfectly and produced refrigeration. The performance of the
modified VARS was then tested in the laboratory under simulated conditions
using water at 100°C, steam at 103°C, 106°C, 116°C and 121°C and using electric
heater. The experiments with low temperatures could not produce any cooling
whereas steam at116°C and 121°C and electric heater at 150°C produced
refrigeration effect. The corresponding generator temperature obtained were
105°C and 110°C and the ice tray temperatures were 6.8°C and 1.9°C. The
temperature obtained in the cabin of the refrigerator was 10.9°C and 8.1°C which
was ideal for keeping fruits vegetables and other perishable items. For effective
working of this system using only on solar energy, instead of flat plate collector, a
solar steam generator that could produce steam can be used.
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