What are the prospects and challenges of green ammonia in renewable energy, what are its most prominent applications on the ground, and when will it be widely adopted?
Ph.D Mustafa Faisal Ghlaim
The main advantage of green ammonia is that it is produced without CO2 emissions, significantly reducing its environmental impact. Green methods of ammonia production often involve the use of renewable energy sources, such as solar or wind energy, for water electrolysis to obtain hydrogen, which is then combined with nitrogen from the atmosphere to produce ammonia.
Green ammonia can be considered a source of renewable energy because its production involves the use of renewable sources, and ammonia itself can be used as an energy carrier for storing and transporting energy. It can be burned in specialized engines or used in fuel cells to produce electricity without carbon dioxide emissions. Additionally, green ammonia has the potential to replace fossil fuels in various industrial processes.
Dear Colleagues I am glad to invite you to collaborate on a research paper in the field of renewable energy, with the aim of publishing in a high-impact Scopus-indexed journal.
I believe that our joint efforts could result in a significant contribution to the field. My current research focuses on innovative photovoltaic technologies, energy optimization strategies, etc.and I am keen to integrate diverse perspectives to enhance the study.
If you are interested, I would love to discuss potential research topics and collaboration opportunities. Please let me know a convenient time for a discussion or feel free to share your thoughts on how we can align our expertise for a high-quality publication.
Looking forward to your response.
Thanks and Regards
Dr. Govinda Pal (Ph.D.,M.Tech,B.Tech)
Assistant Professor,Makaut -West Bengal Email Id [email protected]
Green ammonia offers a carbon-neutral alternative for energy storage and transportation, serving as a carrier for renewable hydrogen and aiding in decarbonizing industries. Its adoption is promising but faces challenges like high costs and infrastructure needs, with widespread use expected to grow as technology advances and economies of scale improve.
Ammonia can store hydrogen because it has a high energy density. In addition, when ammonia is burned for power generation or other uses, it does not emit carbon dioxide (CO2).
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