Life cycle cost analysis of an innovative nanofluid assisted
This study presents a comprehensive life cycle cost analysis of a novel Photovoltaic - Nanofluid Assisted Thermoelectric Air Conditioner aimed at enhancing energy efficiency and
Analysis of Solar Absorption Chiller driven by CuO Nanofluid
Solar thermal energy-driven systems for space cooling and refrigeration applications help reduce fossil fuel consumption, reduce their associated greenhouse gas (GHG) emissions and
(PDF) Modeling and simulation analysis of solar
Mathematical models of the SACS system including the solar PTC, tank storage and the single-effect Li–Br/H2O absorption chiller are
Modeling and performance optimization of non-Newtonian hybrid
Through the integration of a Sutterby magneto-hybrid nanofluid (SMHNF) into a solar-HVAC system, this study suggests a computational neural network methodology to
A Dynamic Investigation of a Solar Absorption Plant with
This study explores the impact of using water-Al2O3 nanofluids, at different nanoparticle concentrations, in solar thermal collectors for solar cooling applications.
Heat Transfer Enhancement with Nanofluid in Solar Water/Air
This chapter explores the fascinating synergy between nanofluid technology and solar heat transfer, aiming to elucidate the mechanisms underlying the enhanced heat transfer
(PDF) A Dynamic Investigation of a Solar Absorption Plant with
Improving the seasonal energy performance of solar cooling systems is a current research priority, and this work investigates whether nanofluids can significantly enhance
Improving solar HVAC performance by
Therefore, this research work introduces a novel engineering study that explores solar-HVAC systems. However, the study utilized hybrid nanofluids (HNFs) consisting of
Nanofluid-Enhanced HVAC&R Systems (2015–2025):
Among these, nanofluids—colloidal suspensions of nanoparticles in base fluids—have shown promise in boosting heat transfer performance. This review provides a
Modeling and Performance Optimization of Non-Newtonian
A hybrid nanofluid consisting of Cu (copper) and SiO2 (silicon dioxide) nanoparticles dissolved in propylene glycol (PG) is used to represent the system under the
(PDF) Modeling and simulation analysis of solar absorption chiller
Mathematical models of the SACS system including the solar PTC, tank storage and the single-effect Li–Br/H2O absorption chiller are developed. The numerical simulation results
Modeling and performance optimization of non-Newtonian hybrid nanofluid
Through the integration of a Sutterby magneto-hybrid nanofluid (SMHNF) into a solar-HVAC system, this study suggests a computational neural network methodology to
Modeling and Performance Optimization of Non-Newtonian Hybrid Nanofluid
A hybrid nanofluid consisting of Cu (copper) and SiO2 (silicon dioxide) nanoparticles dissolved in propylene glycol (PG) is used to represent the system under the