2015
DOI: 10.5334/s40984-015-0011-x
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Current progress in adsorption technologies for low-energy buildings

Abstract: More than half of the world's population currently lives in cities. An essential constituent of future sustainable cities is energy efficient and ecologically sound buildings which ensure high levels of comfort and convenience without reducing the standards of living. At present, a significant part of primary fossil fuels is spent for heating/cooling of buildings, thus, greatly contributing to total GHG emissions. In this paper, typical heat losses in dwellings are considered taking the United Kingdom and the … Show more

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Cited by 2 publications
(1 citation statement)
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“…At components level, the main activity is dedicated to the optimization of the adsorber configuration, namely, the way to integrate the adsorbent material inside an efficient heat exchanger (HEX) . There are three main possible adsorber configurations: the loose grains ones, in which the adsorbent, shaped in grains, is put in contact with the HEX; the binder‐based coating, in which the HEX is coated by a mixture of adsorbent material and a binder; the in situ crystallization coating, in which the adsorbent material is directly synthesized over the HEX surface.…”
Section: Introductionmentioning
confidence: 99%
“…At components level, the main activity is dedicated to the optimization of the adsorber configuration, namely, the way to integrate the adsorbent material inside an efficient heat exchanger (HEX) . There are three main possible adsorber configurations: the loose grains ones, in which the adsorbent, shaped in grains, is put in contact with the HEX; the binder‐based coating, in which the HEX is coated by a mixture of adsorbent material and a binder; the in situ crystallization coating, in which the adsorbent material is directly synthesized over the HEX surface.…”
Section: Introductionmentioning
confidence: 99%