The effects of ejector adiabatic absorber on heat and mass transfer of binary nanofluid with heat transfer additives

Abstract: This paper presents experimental results on the study of the effects of ejector adiabatic absorber on heat and mass transfer of binary nanofluid with heat transfer additives (2-ethyl-1-hexanol and gum Arabic). In this case, H2O/lithium bromide-alumina nanofluid was suggested due to a growing interest in absorption heat transfer working fluid for solar energy application. An experimental setup — ejector test rig — was designed to study the absorption, heat, and mass transfer rate as a result of refrigerant vapo… Show more

“…Sundar et al (2021c) investigated water-based nanodiamond nanofluids circulating in a flat plate solar collector at different particle loadings and Reynolds numbers. Muhammad et al (2021) investigated the enhanced heat and mass transfer of binary nanofluid in an ejector adiabatic absorber for solar energy recovery application. Herrera et al (2021) investigated the thermal enhancement of a thermosyphon-based heat exchanger using graphene oxide nanofluid as the working fluid in a cogeneration system for waste heat recovery.…”

Thermal Energy, Process, and Transport Intensification - A Brief Review of Literature in 2021 and Prospects

“…Sundar et al (2021c) investigated water-based nanodiamond nanofluids circulating in a flat plate solar collector at different particle loadings and Reynolds numbers. Muhammad et al (2021) investigated the enhanced heat and mass transfer of binary nanofluid in an ejector adiabatic absorber for solar energy recovery application. Herrera et al (2021) investigated the thermal enhancement of a thermosyphon-based heat exchanger using graphene oxide nanofluid as the working fluid in a cogeneration system for waste heat recovery.…”

Thermal Energy, Process, and Transport Intensification - A Brief Review of Literature in 2021 and Prospects

Performance improvement of absorption chillers: A review on nanoparticle addition