Journal of Nanomedicine & Nanotechnology

The use of green Nano hydrogen as fuel and its effect

26^th International Conference on ADVANCED NANOSCIENCE AND NANOTECHNOLOGY

December 05-06, 2022 | Dubai, UAE

Abdelsalam Abuzreda

University of Benghazi, Libya

Scientific Tracks Abstracts: J Nanomed Nanotechnol

Abstract:

Renewable energy is now considered a more desirable source of fuel compared to nuclear power due to the absence of safety risk and disasters. Considering that the major component of greenhouse gases is carbon dioxide, there is a global concern about reducing carbon emissions to minimize the problem of climate change. In this regard, different policies could be applied to reducing carbon emissions, such as enhancing renewable energy deployment and encouraging technological innovations. Two possible solutions may be implemented to reduce carbon dioxide (CO2) emissions and hence to overcome the problem of climate change: replacing fossil fuels with renewable energy sources as much as possible and enhancing energy efficiency. In this paper, we discuss alternative technologies for enhancing renewable energy deployment and energy use efficiency keeping into consideration of climate conditions in Libya, Green Nano hydrogen is a universal, light and highly reactive fuel, through a chemical process known as electrolysis. This method uses an electric current to separate hydrogen from oxygen in water, If this electricity is obtained from renewable sources, we will produce energy without emitting carbon dioxide into the atmosphere. Hydrogen is the most abundant element in the universe, but on Earth it does not appear pure in nature, and requires energy to separate. The most common method is to extract hydrogen from water, which is made up of two parts hydrogen and one part oxygen (hence H2O). Doing so is fairly simple. You can use heat and chemical reactions to release hydrogen from organic matter such as fossil fuels. However, this is considered very polluting. Recent Publications 1. Mosa IF, Abd HH, Abuzreda A, Yousif AB, Assaf N. (2021) Chitosan and curcumin nanoformulations against potential cardiac risks associated with hydroxyapatite nanoparticles in Wistar male rats. International Journal of Biomaterials. Jul 29;2021 2. Yousif AB, Mosa IF, Abd HH, Abuzreda A, Assaf N,.(2020) Bioevaluation of the role of chitosan and curcumin nanoparticles in ameliorating genotoxicity and inflammatory responses in rats’ gastric tissue followed hydroxyapatite nanoparticles’ oral uptake. Toxicology Research. Jul;9(4):493-508. 3. Yousef MI, Abuzreda AA, Kamel MA, (2019). Cardiotoxicity and lung toxicity in male rats induced by long-term exposure to iron oxide and silver nanoparticles. Experimental and therapeutic medicine. Dec 1;18(6):4329-39.

Biography :

Abdelsalam Abuzreda is a Ph.D. graduate in Nanotoxicity on Molecular and Physiological Characteristics and he is the assistant professor and Postdoctoral research fellow at Benghazi University. Currently, he is a researcher in the Department of Health Safety and Environmental (HSE), Arabian Gulf Oil Company (AGOCO). He has contributed to various conferences and many publications in his research interests such as Material Characterization, Nanoparticle Synthesis, Nanoparticle Preparation, Nanomaterials Synthesis, Nanomaterials, Nanoscience, Nanostructured Materials, Nanobiotechnology, Polymers, and Biomaterials.