"Experimental Investigation of Granular Activated Carbon/R-134a Pair for Adsorption Cooling System Applications"
written by M. Attalla, S. Sadek,
published by Journal of Power and Energy Engineering, Vol.2 No.2, 2014
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Study on a twin‐bed adsorption refrigeration system using R134a‐activated carbon pair
Heat Transfer—Asian Research, 2019
[2] Experimental study of solar powered ice maker using adsorption pair of activated carbon and methanol
Applied Thermal Engineering, 2018
[3] Development and studies of low capacity adsorption refrigeration systems based on silica gel-water and activated carbon-R134a pairs
Heat and Mass Transfer, 2018
[4] Experimental study of the effect of enhanced mass transfer on the performance improvement of a solar-driven adsorption refrigeration system
Applied Energy, 2018
[5] Investigation and performance analysis of hybrid solar powered water heater and adsorption refrigeration system.
[6] Sustainable Cooling Research Using Activated Carbon Adsorbents and Their Environmental Impact
[7] A review on adsorbent-adsorbate pairs for cooling applications
Applied Thermal Engineering, 2017
[8] Experimental investigation on adsorption capacity of ACF–methanol pairs for cooling application
The Journal of Psychology, 2017
[9] A state of the art of required techniques for employing activated carbon in renewable energy powered adsorption applications
Renewable and Sustainable Energy Reviews, 2017
[10] Study on adsorption refrigeration system using activated carbon–ethanol as working pair
[11] Design and Comparative analysis of Adsorption Refrigeration System for Refrigerants R-134a and R-410a
[12] Dynamic study of an adsorber of a solar adsorption refrigeration machine used for air conditioning of airports
International Journal of Sustainable Aviation, 2016
[13] A Review on Working Pair Used in Adsorption Cooling System
International Journal of Air-Conditioning and Refrigeration, 2015