New materials for adsorption heat transformation and storage

Standard

New materials for adsorption heat transformation and storage. / Henninger, Stefan K.; Ernst, Sebastian Johannes; Gordeeva, Larisa et al.

In: Renewable Energy, Vol. 110, 09.2017, p. 59-68.

Research output: Contribution to journal › Article › peer-review

Harvard

Henninger, SK, Ernst, SJ, Gordeeva, L, Bendix, P, Fröhlich, D, Grekova, AD, Bonaccorsi, L, Aristov, Y & Jaenchen, J 2017, 'New materials for adsorption heat transformation and storage', Renewable Energy, vol. 110, pp. 59-68. https://doi.org/10.1016/j.renene.2016.08.041

APA

Henninger, S. K., Ernst, S. J., Gordeeva, L., Bendix, P., Fröhlich, D., Grekova, A. D., Bonaccorsi, L., Aristov, Y., & Jaenchen, J. (2017). New materials for adsorption heat transformation and storage. Renewable Energy, 110, 59-68. https://doi.org/10.1016/j.renene.2016.08.041

Vancouver

Henninger SK, Ernst SJ, Gordeeva L, Bendix P, Fröhlich D, Grekova AD et al. New materials for adsorption heat transformation and storage. Renewable Energy. 2017 Sept;110:59-68. doi: 10.1016/j.renene.2016.08.041

Author

Henninger, Stefan K. ; Ernst, Sebastian Johannes ; Gordeeva, Larisa et al. / New materials for adsorption heat transformation and storage. In: Renewable Energy. 2017 ; Vol. 110. pp. 59-68.

BibTeX

@article{69825bb1ac0d4661a247b20699202c8b,

title = "New materials for adsorption heat transformation and storage",

abstract = "Great current progress in the materials science offers an enormous choice of novel adsorbents which may be promising for transformation and storage of low temperature heat, e.g. from renewable heat sources. This paper gives an overview of recent trends and achievements in this field. We consider possible optimization of zeolites by dealumination, further development on aluminophosphates, composites “salt in porous host matrice” and metal-organic frameworks which are currently receiving the largest share of scientific attention. The particular attention is focused on the chemical nano-tailoring and tunable adsorption behavior of these materials to satisfy the demands of appropriate heat transformation cycles. We hope that this review will give new impact on target-oriented research on the novel adsorbents for heat transformation and storage.",

keywords = "Adsorption heat storage, Aluminophosphates, Composite sorbents, Metal-organic frameworks, Zeolites, ENERGY STORAGE, IMPREGNATED DESICCANT MATRICES, COMPOSITE SORBENTS, ADSORBENT COATINGS, WATER-VAPOR SORPTION, METAL-ORGANIC FRAMEWORKS, SAPO-34 MOLECULAR-SIEVE, CATALYTIC-PROPERTIES, ZEOLITES, CALCIUM-CHLORIDE",

author = "Henninger, {Stefan K.} and Ernst, {Sebastian Johannes} and Larisa Gordeeva and Phillip Bendix and Dominik Fr{\"o}hlich and Grekova, {Alexandra D.} and Lucio Bonaccorsi and Yuri Aristov and Jochen Jaenchen",

year = "2017",

month = sep,

doi = "10.1016/j.renene.2016.08.041",

language = "English",

volume = "110",

pages = "59--68",

journal = "Renewable Energy",

issn = "0960-1481",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - New materials for adsorption heat transformation and storage

AU - Henninger, Stefan K.

AU - Ernst, Sebastian Johannes

AU - Gordeeva, Larisa

AU - Bendix, Phillip

AU - Fröhlich, Dominik

AU - Grekova, Alexandra D.

AU - Bonaccorsi, Lucio

AU - Aristov, Yuri

AU - Jaenchen, Jochen

PY - 2017/9

Y1 - 2017/9

N2 - Great current progress in the materials science offers an enormous choice of novel adsorbents which may be promising for transformation and storage of low temperature heat, e.g. from renewable heat sources. This paper gives an overview of recent trends and achievements in this field. We consider possible optimization of zeolites by dealumination, further development on aluminophosphates, composites “salt in porous host matrice” and metal-organic frameworks which are currently receiving the largest share of scientific attention. The particular attention is focused on the chemical nano-tailoring and tunable adsorption behavior of these materials to satisfy the demands of appropriate heat transformation cycles. We hope that this review will give new impact on target-oriented research on the novel adsorbents for heat transformation and storage.

AB - Great current progress in the materials science offers an enormous choice of novel adsorbents which may be promising for transformation and storage of low temperature heat, e.g. from renewable heat sources. This paper gives an overview of recent trends and achievements in this field. We consider possible optimization of zeolites by dealumination, further development on aluminophosphates, composites “salt in porous host matrice” and metal-organic frameworks which are currently receiving the largest share of scientific attention. The particular attention is focused on the chemical nano-tailoring and tunable adsorption behavior of these materials to satisfy the demands of appropriate heat transformation cycles. We hope that this review will give new impact on target-oriented research on the novel adsorbents for heat transformation and storage.

KW - Adsorption heat storage

KW - Aluminophosphates

KW - Composite sorbents

KW - Metal-organic frameworks

KW - Zeolites

KW - ENERGY STORAGE

KW - IMPREGNATED DESICCANT MATRICES

KW - COMPOSITE SORBENTS

KW - ADSORBENT COATINGS

KW - WATER-VAPOR SORPTION

KW - METAL-ORGANIC FRAMEWORKS

KW - SAPO-34 MOLECULAR-SIEVE

KW - CATALYTIC-PROPERTIES

KW - ZEOLITES

KW - CALCIUM-CHLORIDE

UR - http://www.scopus.com/inward/record.url?scp=84994860316&partnerID=8YFLogxK

U2 - 10.1016/j.renene.2016.08.041

DO - 10.1016/j.renene.2016.08.041

M3 - Article

AN - SCOPUS:84994860316

VL - 110

SP - 59

EP - 68

JO - Renewable Energy

JF - Renewable Energy

SN - 0960-1481

ER -

ID: 10320616