ABSTRACT
Numerical and experimental approach is applied
to study the performance of parabolic cooker solar collector (PCSC). The
proposed model consists of three parts. The first partis a solar radiation
part. In this section, the amount of solar radiation incident upon Earth is
estimated using equations and relationships between the sun and the Earth. The
second part is the optical part. This part has the ability to determine the
opticalefficiency of PCSC throughout the daytime. The last part is the thermal
part. The aim cfthis section is to estimate the amount of energy collected by
the working fluid, heat loss, thermal efficiency, and outlet temperature. All
heat balance equations and heat transfer mechanisms: conduction, convection,
and radiation, have been incorporated. The proposed model is implemented in
MATLAB software. In addition, an experimental investigation was conducted on
parabolic cooker solar collector. The test was carried out at Federal
university ofTechnology, Owerri on October 19, 2023. A test rack was used
during the experimentation. It contains a circulating pump, a storage tank, a
heat exchanger (radiator), and flow meter. Thermocouples were used to measure
the inlet and outlet temperature of PCSC. Water is used as a working fluid.
After data were recorded, thermal performance analysis was performed. The
results indicate that a maximum temperature of 48 was achieved and a maximum
efficiency of 30 % was obtained. Lastly, comparisons between the experimental
and modelled results have been carried out for validation purpose. The results
show acceptable agreement even though there are some variances. This deviation
is accounted for in the heat loss from the connectors, supporting brackets,
location of thermocouples, accuracy of thermocouples andthermocouple reader,
and accuracy ofheat transfer equations.
ANOKA, C (2024). Numerical, Experimental Analysis And Result Validation Of Parabolic Cooker Solar Collector:- Anoka Princewill C. Repository.mouau.edu.ng: Retrieved Dec 04, 2024, from https://repository.mouau.edu.ng/work/view/numerical-experimental-analysis-and-result-validation-of-parabolic-cooker-solar-collector-anoka-princewill-c-7-2
CHISOM, ANOKA. "Numerical, Experimental Analysis And Result Validation Of Parabolic Cooker Solar Collector:- Anoka Princewill C" Repository.mouau.edu.ng. Repository.mouau.edu.ng, 27 Nov. 2024, https://repository.mouau.edu.ng/work/view/numerical-experimental-analysis-and-result-validation-of-parabolic-cooker-solar-collector-anoka-princewill-c-7-2. Accessed 04 Dec. 2024.
CHISOM, ANOKA. "Numerical, Experimental Analysis And Result Validation Of Parabolic Cooker Solar Collector:- Anoka Princewill C". Repository.mouau.edu.ng, Repository.mouau.edu.ng, 27 Nov. 2024. Web. 04 Dec. 2024. < https://repository.mouau.edu.ng/work/view/numerical-experimental-analysis-and-result-validation-of-parabolic-cooker-solar-collector-anoka-princewill-c-7-2 >.
CHISOM, ANOKA. "Numerical, Experimental Analysis And Result Validation Of Parabolic Cooker Solar Collector:- Anoka Princewill C" Repository.mouau.edu.ng (2024). Accessed 04 Dec. 2024. https://repository.mouau.edu.ng/work/view/numerical-experimental-analysis-and-result-validation-of-parabolic-cooker-solar-collector-anoka-princewill-c-7-2