Results 41 to 50 of about 543 (165)
Continuous‐flow hydrodeoxygenation of m‐cresol assisted by catalytic transfer hydrogenation (CTH‐HDO) was carried out at 300°C and atmospheric pressure over a Ni/SBA‐15 catalyst, using isopropanol as a renewable hydrogen donor. Under optimized conditions, a toluene selectivity of 56% was achieved, highlighting the potential of this approach as a safer ...
Lexane Paget +3 more
wiley +1 more source
Indoles are promising N‐heterocyclic liquid organic hydrogen carriers. Here, we investigate the reaction pathways of (methyl)indole (de)hydrogenation over Pd catalysts using reaction experiments and computational modeling: we show that distinct intermediates are formed in hydrogenation versus dehydrogenation steps, and stereocenter evolution is ...
Matthew D. Edgar +6 more
wiley +1 more source
In this research, we investigated an energy supply system based on hydrogen derived from renewable energy. We modeled the energy flow and efficiency of a system using the MCH-toluene-hydrogen reaction cycle (MTHR) by methylcyclohexane (MCH, C6H11CH3) and
Shin'ya OBARA
doaj +1 more source
Pyrolysis of methylcyclohexane
The kinetics of pyrolysis of methylcyclohexane was investigated from the viewpoint of coke formation in a steel tubular reactor (S/V = 6·65 cm-1) at 0·1 MPa, 700 to 820 °C and residence time 0·01 to 0·24 s.
Ulrika Králíková +2 more
core +1 more source
Generation of Catalytic Films of Alumina and Zeolites on FeCralloy Rods
FeCralloy rods (0.5 mm thickness) were subjected to high temperature thermal oxidation to produce a metastable alumina phase. This structured layer acts as an anchor to bind additional coatings of alumina via washcoat techniques, thereby improving the ...
C. Rallan, R.T.A. Al-Rubaye, A. Garforth
doaj +1 more source
Hydrogen storage in the form of methylcyclohexane
The use of compounds, such as toluene, that can store hydrogen with a specific volume of 46 kgH(2)/m(3) in the form of methylcyclohexane, has been already shown to be potentially feasible for both mobile and stationary applications.
Yolcular, S., Olgun, O.
core +1 more source
Green Hydrogen for Maritime Decarbonization
Green hydrogen offers strong potential to decarbonize maritime shipping due to its carbon‐free nature, high energy density, and versatility. This review assesses its feasibility, applications, challenges, and the roles of policy and innovation, highlighting green hydrogen and its derivatives as strategic pathways for deep maritime decarbonization ...
Chunjing Li, Wenwen Guo, Jingqiang Wang
wiley +1 more source
The pyrolytic activated carbon derived from waste tires (PTC) was functionalized to fabricate the high performance of Pt-based catalysts in the dehydrogenation of methylcyclohexane and hydrogen production.
Tianci Wang +4 more
core +1 more source
Dehydrogenation of H12‐BT is normally conducted in a multiphasic reaction whereas hydrogen release lowers the partial pressure of H12‐BT and induces H12‐BT evaporation. Due to H12‐BT evaporation major parts of the released hydrogen origin from gas phase dehydrogenation.
M. Geißelbrecht +3 more
wiley +1 more source
ABSTRACT The transition to affordable and clean energy sources is essential for creating a sustainable future. Green hydrogen, as an emerging energy carrier, has the potential to meet increasing energy demands while mitigating environmental impact and achieving SDG 7.
A. Telukdarie, K. Murulane, X. Maphisa
wiley +1 more source

