Thomas Nonnen scite author profile

For the purpose of a long-term heat storage system based on water sorption, a composite material consisting of CaCl 2 and zeolite Ca-X, obtained by ion exchange with Ca 2+ and subsequent impregnation with CaCl 2 of a binder-free granulated zeolite Na-X, was prepared on a technical scale. In a lab-scale apparatus, the heat storage density of the composite material reaches values up to 260 kWh m -3 for water vapor partial pressures up to 33 mbar. As compared to the pure zeolites Ca-X and Na-X, this corresponds to an increase in heat storage density of 45 % and 68 %, respectively. An engineering concept based on the mechanical transport of the composite heat storage material through a prereactor and a main reactor was demonstrated in a hardware-in-the-loop test bench.

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Water loading lift and heat storage density prediction of adsorption heat storage systems using Dubinin-Polanyi theory—Comparison with experimental results

Lehmann

Beckert

Nonnen

et al. 2017

Applied Energy

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Continuous biphasic enzymatic reduction of aliphatic ketones

Leuchs

Nonnen

Dechambre

et al. 2013

Journal of Molecular Catalysis B: Enzymatic

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Salt inclusion and deliquescence in salt/zeolite X composites for thermochemical heat storage

Nonnen

Preißler

Kött

et al. 2020

Microporous and Mesoporous Materials

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Erprobung eines thermochemischen Langzeitwärmespeichers auf Basis eines Zeolith/Salz‐Komposits

Nonnen

Beckert

Gleichmann

et al. 2016

Chemie Ingenieur Technik

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Für einen thermochemischen Langzeitwärmespeicher auf Basis von Wassersorption wurde ein Kompositmaterial bestehend aus CaCl2 auf Zeolith Ca‐X ausgehend von binderfreiem Zeolith Na‐X‐Granulat durch Ionenaustausch mit Ca2+‐Kationen und Imprägnierung mit CaCl2 im Technikumsmaßstab hergestellt. Die in einer Laborapparatur ermittelte materialbezogene Wärmespeicherdichte des Kompositmaterials erreicht gegenüber den salzfreien Zeolithen Ca‐X bzw. Na‐X eine Steigerung von bis zu 45 % bzw. 68 %. Für den Zeolith Na‐X wurde ein verfahrenstechnisches Konzept mit Förderung des Speichermaterials durch einen Vor‐ und Hauptreaktor in einem „Hardware in the Loop“‐Prüfstand demonstriert.

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Identification of hydrated phases in ALPO4-5, and explanation of their effect on the water sorption and dynamics

Kolokathis

Nonnen

Füldner

et al. 2022

Microporous and Mesoporous Materials

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Thomas Nonnen

Catalytic deoxygenation of oleic acid in continuous gas flow for the production of diesel-like hydrocarbons

A Comparison of Heat Storage Densities of Zeolite Granulates Predicted by the Dubinin-polanyi Theory to Experimental Measurements

A Thermochemical Long‐Term Heat Storage System Based on a Salt/Zeolite Composite

Water loading lift and heat storage density prediction of adsorption heat storage systems using Dubinin-Polanyi theory—Comparison with experimental results

Continuous biphasic enzymatic reduction of aliphatic ketones

Salt inclusion and deliquescence in salt/zeolite X composites for thermochemical heat storage

Erprobung eines thermochemischen Langzeitwärmespeichers auf Basis eines Zeolith/Salz‐Komposits

Identification of hydrated phases in ALPO4-5, and explanation of their effect on the water sorption and dynamics

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