On the development of an innovative adsorber plate heat exchanger for adsorption heat transformation processes; an experimental and numerical study

Makram Mikhaeil, Matthias Gaderer, Belal Dawoud

Research output: Contribution to journalArticlepeer-review

27 Scopus citations

Abstract

An innovative adsorber plate heat exchanger (APHE), which is developed for application in adsorption heat pumps, chillers and thermal energy storage systems, is introduced. A test frame has been constructed as a representative segment of the introduced APHE for applying loose grains of AQSOA-Z02. Adsorption kinetic measurements have been carried out in a volumetric large-temperature-jump setup under typical operating conditions of adsorption processes. A transient 2-D model is developed for the tested sample inside the setup. The measured temporal uptake variations with time have been fed to the model, through which a micro-pore diffusion coefficient at infinite temperature of 2 E−4 [m2s−1] and an activation energy of 42.1 [kJ mol−1] have been estimated. A 3-D model is developed to simulate the combined heat and mass transfer inside the APHE and implemented in a commercial software. Comparing the obtained results with the literature values for an extruded aluminium adsorber heat exchanger coated with a 500 μm layer of the same adsorbent, the differential water uptake obtained after 300 s of adsorption (8.2 g/100 g) implies a sound enhancement of 310%. This result proves the great potential of the introduced APHE to remarkably enhance the performance of adsorption heat transformation appliances.

Original languageEnglish
Article number118272
JournalEnergy
Volume207
DOIs
StatePublished - 15 Sep 2020

Keywords

  • Adsorber heat exchanger
  • Adsorption kinetics
  • Dynamic simulation
  • Plate heat exchanger

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