Mobility and adsorption of liquid organic hydrogen carriers (LOHCs) in soils - environmental hazard perspective

Liquid organic hydrogen carriers (LOHCs) are an energy system that can be used to store and transport hydrogen under standard temperature and pressure chemically bound to a carrier. The LOHC systems show advantages over conventional energy systems (recyclability, higher sustainability and lower emis...

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Published inGreen chemistry : an international journal and green chemistry resource : GC Vol. 22; no. 19; pp. 6519 - 653
Main Authors Zhang, Ya-Qi, Stolte, Stefan, Alptekin, Gizem, Rother, Alica, Diedenhofen, Michael, Filser, Juliane, Markiewicz, Marta
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 07.10.2020
Subjects
Adsorption
Applications programs
Carbazole
Carbazoles
Derivatives
Drinking water
Environmental hazards
Green chemistry
Groundwater
High-performance liquid chromatography
Hydrogen
Indoles
Leaching
Liquid chromatography
Mobile computing
Mobility
Moisture content
Organic carbon
Partitions
Recyclability
Soil investigations
Soil water
Soils
Surface water
Surface-groundwater relations
Sustainability
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Summary:Liquid organic hydrogen carriers (LOHCs) are an energy system that can be used to store and transport hydrogen under standard temperature and pressure chemically bound to a carrier. The LOHC systems show advantages over conventional energy systems (recyclability, higher sustainability and lower emissions) and other hydrogen-based systems (lower loses, ease of handling and higher safety), and are applied in stationary and mobile applications worldwide. The scale and type of use indicate that the release of LOHCs to the environment can be expected. Yet, their behaviour and fate have not been investigated especially with regard to assessment of exposure, mobility and possibility to reach surface water, groundwater or drinking water sources. To investigate that we studied the mobility of thirteen technologically promising LOHC candidates including indole, quinaldine, carbazole derivatives, benzyltoluene and dibenzyltoluene, and their (partially) saturated forms in soil, for the first time. The substances were classified into mobility classes based on their organic carbon-water partition coefficients ( K oc ) determined via in silico models and HPLC screening. The log  K oc values increased in the order indoles < quinaldines < carbazole derivatives < benzyltoluenes < dibenzyltoluenes covering a full spectrum of mobility scale (from highly mobile to immobile). The behaviour of exemplary LOHC system - quinaldine including H 2 -unsaturated, partially and fully saturated forms - was further assessed by investigating the soil-water partition coefficients ( K d ) via adsorption batch equilibrium and column leaching test. The study showed that some LOHCs can be expected to be very mobile in soils and have the potential to reach groundwater. Investigation of the mobility of liquid organic hydrogen carriers in soils in relation to the environmental hazard assessment.
Bibliography:Electronic supplementary information (ESI) available. See DOI
10.1039/d0gc02603d
ISSN:1463-9262
1463-9270
DOI:10.1039/d0gc02603d