ShareConstraints of adsorption cooling cycles working at partial vacuum and pressurized conditions.
Author(s) : SAHA B. B., SHARKAWY I. I. el-, CHAKRABORTY A., et al.
Summary
The objective of this paper is to consolidate the outcomes of a systematic investigation on the use of the adsorption phenomenon for cooling. The performance analysis of thermally-driven adsorption cooling cycles working in both partial vacuum and pressurized conditions is presented. Six adsorbent and refrigerant pairs, namely the activated carbon fiber ACF (A-20)/ethanol, Maxsorb III/ethanol, silica gel/water, Fluka/R-134a, Chemviron/R-134a and Maxsorb II/R-134a pairs have been investigated. The relationships between equilibrium pressures, adsorbent temperatures and equilibrium adsorption concentrations (P-T-W diagram) have been presented. The theoretical analysis shows that the former three pairs, i.e. the adsorption cycles working at partial vacuum pressures are suitable for surface cooling while the latter three, i.e. those working at pressurized conditions are suitable for micro-cooling applications.
Details
- Original title: Constraints of adsorption cooling cycles working at partial vacuum and pressurized conditions.
- Record ID : 2008-2117
- Languages: English
- Source: Cryogenics and refrigeration. Proceedings of ICCR'2008.
- Publication date: 2008/04/05
Links
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Indexing
- Themes: Absorption and adsorption systems
- Keywords: R134a; Silica gel; Adsorbent; Activated carbon; Adsorption system; Ethanol; Thermodynamic cycle; Water
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