TY - JOUR
T1 - Investigation of the effect of R134a/Al2O3 -nanofluid on the performance of a domestic vapour compression refrigeration system
AU - Ajayi, Oluseyi O.
AU - Ukasoanya, Daniel E.
AU - Ogbonnaya, Mercy
AU - Salawu, Enesi Y.
AU - Okokpujie, Imhade P.
AU - Akinlabi, Stephen A.
AU - Akinlabi, Esther T.
AU - Owoeye, Felicia T.
PY - 2019/8/14
Y1 - 2019/8/14
N2 - The quest for the conservation of energy resources and production of energy systems that are more efficient have introduced the use of nanoparticles in heat transfer fluids. The study investigated the effect of Al2O3 nanoparticles on the working fluids of a vapour compression refrigeration system (VCRS) when used with refrigerant R134a. The nanorefrigerant was used in the vapour compression system without system retrofit. The system's performance analyses were carried out via the freeze capacity tests and energy consumption analysis. The outcome showed that the performance of the Al2O3-dispersed nano-working fluid outperformed that of the conventional working fluid mixture. Specifically, the outcome demonstrated that the system with the nanorefrigerant achieved faster cooling, better performance and improved energy consumption. Thus, using Al2O3 nanoparticles in combination with the working fluids of domestic refrigerators was shown to be feasible. Further to this, based on the performance results, it was necessary to find out the very reason behind the improved thermal performance of the nanoparticle dispersed working fluid. This led to the determination of the thermophysical property of the nanolubricant. The results indicate better thermal conductivity and salinity, implying that the nanolubricant has better heat transfer ability than the base oil (Capella D). In addition to this, the results of the viscosity test showed that the presence of the nanoparticles caused a reduction in the lubricant's viscosity thus portraying a reduction in the energy consumption. However, the pH test results indicate that there may be the need for an improved compressor material selection if the nanorefrigerant will be employed for vapour compression refrigeration purposes in the future.
AB - The quest for the conservation of energy resources and production of energy systems that are more efficient have introduced the use of nanoparticles in heat transfer fluids. The study investigated the effect of Al2O3 nanoparticles on the working fluids of a vapour compression refrigeration system (VCRS) when used with refrigerant R134a. The nanorefrigerant was used in the vapour compression system without system retrofit. The system's performance analyses were carried out via the freeze capacity tests and energy consumption analysis. The outcome showed that the performance of the Al2O3-dispersed nano-working fluid outperformed that of the conventional working fluid mixture. Specifically, the outcome demonstrated that the system with the nanorefrigerant achieved faster cooling, better performance and improved energy consumption. Thus, using Al2O3 nanoparticles in combination with the working fluids of domestic refrigerators was shown to be feasible. Further to this, based on the performance results, it was necessary to find out the very reason behind the improved thermal performance of the nanoparticle dispersed working fluid. This led to the determination of the thermophysical property of the nanolubricant. The results indicate better thermal conductivity and salinity, implying that the nanolubricant has better heat transfer ability than the base oil (Capella D). In addition to this, the results of the viscosity test showed that the presence of the nanoparticles caused a reduction in the lubricant's viscosity thus portraying a reduction in the energy consumption. However, the pH test results indicate that there may be the need for an improved compressor material selection if the nanorefrigerant will be employed for vapour compression refrigeration purposes in the future.
KW - Energy
KW - Nanofluid
KW - Nanotechnology
KW - Power
KW - Refrigeration
KW - Thermal System
UR - http://www.scopus.com/inward/record.url?scp=85072380342&partnerID=8YFLogxK
U2 - 10.1016/j.promfg.2019.05.012
DO - 10.1016/j.promfg.2019.05.012
M3 - Conference article
AN - SCOPUS:85072380342
SN - 2351-9789
VL - 35
SP - 112
EP - 117
JO - Procedia Manufacturing
JF - Procedia Manufacturing
T2 - 2nd International Conference on Sustainable Materials Processing and Manufacturing, SMPM 2019
Y2 - 8 March 2019 through 10 March 2019
ER -