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A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
by Schmidt, Ferdinand , Wittstadt, Ursula , Füldner, Gerrit , Herrmann, Ralph , Andersen, Olaf
in Adsorbents / Adsorption / adsorption heat exchanger (AdHEX) / adsorption kinetics / Aluminum / Composite materials / Cooling / Design / Fibers / Heat conductivity / Heat exchangers / Heat pumps / Heat transfer / melt-extraction process / metal fibers / partial support transformation (PST) / Process intensification / SAPO-34 / Stainless steel / Surface chemistry / Thermal conductivity / Zeolites
2015
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A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
by Schmidt, Ferdinand , Wittstadt, Ursula , Füldner, Gerrit , Herrmann, Ralph , Andersen, Olaf
in Adsorbents / Adsorption / adsorption heat exchanger (AdHEX) / adsorption kinetics / Aluminum / Composite materials / Cooling / Design / Fibers / Heat conductivity / Heat exchangers / Heat pumps / Heat transfer / melt-extraction process / metal fibers / partial support transformation (PST) / Process intensification / SAPO-34 / Stainless steel / Surface chemistry / Thermal conductivity / Zeolites
2015
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A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
by Schmidt, Ferdinand , Wittstadt, Ursula , Füldner, Gerrit , Herrmann, Ralph , Andersen, Olaf
in Adsorbents / Adsorption / adsorption heat exchanger (AdHEX) / adsorption kinetics / Aluminum / Composite materials / Cooling / Design / Fibers / Heat conductivity / Heat exchangers / Heat pumps / Heat transfer / melt-extraction process / metal fibers / partial support transformation (PST) / Process intensification / SAPO-34 / Stainless steel / Surface chemistry / Thermal conductivity / Zeolites
2015

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A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers
Journal Article

A New Adsorbent Composite Material Based on Metal Fiber Technology and Its Application in Adsorption Heat Exchangers

Schmidt, Ferdinand,
Wittstadt, Ursula,
Füldner, Gerrit,
Herrmann, Ralph,
Andersen, Olaf
2015
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Overview
In order to achieve process intensification for adsorption chillers and heat pumps, a new composite material was developed based on sintered aluminum fibers from a melt-extraction process and a dense layer of silico-aluminophosphate (SAPO-34) on the fiber surfaces. The SAPO-34 layer was obtained through a partial support transformation (PST) process. Preparation of a composite sample is described and its characteristic pore size distribution and heat conductivity are presented. Water adsorption data obtained under conditions of a large pressure jump are given. In the next step, preparation of the composite was scaled up to larger samples which were fixed on a small adsorption heat exchanger. Adsorption measurements on this heat exchanger element that confirm the achieved process intensification are presented. The specific cooling power for the adsorption step per volume of composite is found to exceed 500 kW/m3 under specified conditions.
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Publisher
MDPI AG
Subject

Adsorbents

/ Adsorption

/ adsorption heat exchanger (AdHEX)

/ adsorption kinetics

/ Aluminum

/ Composite materials

/ Cooling

/ Design

/ Fibers

/ Heat conductivity

/ Heat exchangers

/ Heat pumps

/ Heat transfer

/ melt-extraction process

/ metal fibers

/ partial support transformation (PST)

/ Process intensification

/ SAPO-34

/ Stainless steel

/ Surface chemistry

/ Thermal conductivity

/ Zeolites

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