This research offers insights into an ammonia-hydrogen mixture’s ignition and emission characteristics when assisted by a nanosecond pulsed discharge (NSPD).
Browsing: Innovation
The study reveals that integrating a connected cable-type channel structure within SOFCs and optimized flow field arrangements can substantially enhance the cells’ performance.
The patent introduces a revolutionary carbon dioxide methanation apparatus designed to achieve low-carbon hydrogen production.
The patent identifies a key component, an actuatable closure element, central to the injector’s operation.
Hyundai Motor Company filed a patent that could considerably advance the use of liquid hydrogen in vehicular applications.
The research emphasizes electrode permeability’s critical role in enhancing planar SOFC performance. Through a series of numerical studies, the authors have determined that optimizing the permeability of electrodes can substantially influence the overall efficiency and functionality of SOFCs.
The latest research published in the International Journal of Hydrogen Energy offers crucial insights into the impact of steelmaking processes on the hydrogen embrittlement of tempered martensitic steel.
The paper “WSe₂ modified monocrystalline SnSe₂ nanosheets for hydrogen gas detection and its sensing mechanism” unveils a new method for detecting hydrogen gas using innovative nanosheet materials.
However, improving hydrogen combustion efficiency and minimizing emissions are critical challenges.
This innovative approach highlights the versatility and efficiency of hydrogen as a clean energy source within the aviation industry.