Viscosity, surface tension, and density of the liquid organic hydrogen carrier system based on diphenylmethane, biphenyl, and benzophenone

Liquid organic hydrogen carriers (LOHCs) relying on eutectic diphenylmethane-biphenyl mixtures feature advantageous characteristics such as low melting points and large hydrogen storage capacities. For contributing to a reliable database of process-relevant thermophysical properties, the present stu...

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Bibliographic Details
Published in:International journal of hydrogen energy 2022-06, Vol.47 (52), p.22078-22092
Main Authors: Jander, Julius H., Kerscher, Manuel, Cui, Junwei, Wicklein, Johannes, Rüde, Timo, Preuster, Patrick, Rausch, Michael H., Wasserscheid, Peter, Koller, Thomas M., Fröba, Andreas P.
Format: Article
Language:English
Subjects:
Biphenyl
Diphenylmethane
Eutectic mixture
Liquid organic hydrogen carrier
Surface tension
Viscosity
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Summary:Liquid organic hydrogen carriers (LOHCs) relying on eutectic diphenylmethane-biphenyl mixtures feature advantageous characteristics such as low melting points and large hydrogen storage capacities. For contributing to a reliable database of process-relevant thermophysical properties, the present study investigates the viscosity, surface tension, and density of the LOHC-system based on diphenylmethane, biphenyl, and benzophenone between (278 and 573) K. General agreement between the viscosity and surface tension results from surface light scattering and the data from capillary viscometry and pendant-drop tensiometry is found. Larger surface tension differences beyond 10% for systems containing benzophenone seem to originate from surface orientation effects. For the eutectic diphenylmethane-biphenyl mixture including its hydrogenated dicyclohexylmethane-bicyclohexyl analog, the densities, surface tensions, and viscosities are not significantly different from those of the corresponding pure compounds. By gradually replacing diphenylmethane by its oxidized form benzophenone in mixtures with biphenyl, an increase in density, surface tension, and especially viscosity is observed. [Display omitted] •Study of properties of LOHC system based on eutectic mixtures of H0-DPM and H0-BP.•Surface light scattering and conventional methods applied between 278 and 573 K.•Contribution to extended database for viscosity, surface tension, and density.•Eutectic mixture and its hydrogenated analog show properties similar to pure fluids.•Presence of benzophenone as oxidized form of H0-DPM increases especially viscosity.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2022.04.275