Abhishek Subedi

• Master by Research on Hydrogen Safety
• PhD Candidate at Norwegian University of Science and Technology

The issue of global warming imposes a change of paradigm in the energy sector to mitigate the human impact on the environment. In this perspective, hydrogen can be produced through water electrolysis and used in fuel-cell systems with near-zero pollutant emissions. Nevertheless, the distribution system represents one of the main bottlenecks for a f...

The need to address climate change and global warming is overgrowing: decarbonising the industrial and energy sectors, which are significant contributors to greenhouse gas emissions, has become a top priority. In this regard, hydrogen is eligible to be a leading player in the energy transition process as its combustion is carbon neutral. It is expe...

Hydrogen is an emerging energy carrier with inherent environmental benefits. It has the potential to decarbonize industrial applications that require high-grade heat. In addition, hydrogen allows centralized clean energy production and distribution to remote end-use sites. For a smooth transition to hydrogen technologies, it is important to guarant...

Electrolysis is the process of decomposition of the liquid, containing ions by passing electricity through it. This process is achieved by an electrolyzer. An alkaline water electrolyzer uses electrical energy to break the chemical bond between hydrogen and oxygen in an alkaline electrolytic medium. The performance of the electrolyzer depends upon...

Electricity backup systems are needed to address the temporary grid failure, short-term electricity supply at the locations without grids, power surges, and massive blackouts. These power backup technologies include a combination of batteries and generators operating mostly on fossil fuels. Concerns regarding instant start capability with generator...