Green Hydrogen (eBook)

Discover the key to a sustainable future with Green Hydrogen, an essential guide for those invested in the innovative potential of green hydrogen production for decarbonization.

One of the worldwide objectives for 2050 is to decarbonize the planet. According to the International Energy Agency's most recent projections, the world's energy demand will rise by 25% to 30% by 2040. In an economy that depends on coal and oil, this will increase CO₂, exacerbating climate change. Decarbonizing the Earth envisions a different world in 2050-one that is more open, effective, and sustainable, powered by clean energy like green hydrogen. Generating an element like hydrogen is one of the keys to achieving this goal because, unlike coal and oil, green hydrogen is a pure energy source that emits water vapor and leaves no residue in the air. Industry and hydrogen have a long-standing, global partnership that will only grow stronger as the planet moves away from fossil fuels. Green Hydrogen discusses the challenges and opportunities of sustainable hydrogen production and its applications in different industries, including heat and power generation, industry feedstock, and goods and passenger transport.

Najoua Labjar is a professor in the Ecole Nationale Supérieure d'Arts et Métiers (ENSAM) at University Mohammed V. She has authored and co-authored over 70 articles and book chapters and coordinates engineering courses on materials, quality, and environmental engineering. Her research focuses on materials science, the recovery and treatment of water and waste, and life cycle analysis approaches, particularly for monitoring and assessing environmental impacts.

1 is a material, water, and environmental sciences professor at University Mohammed V. She has published over 250 peer-reviewed scientific papers and book chapters. Her research interests include the development of new processes for wastewater treatments, solid waste valorization, monitoring of pesticides and emergent pollutants in water and soil, and the management of water resources.

Chandrabhan Verma, PhD is a researcher at the Interdisciplinary Research Center for Advanced Materials at the King Fahd University of Petroleum and Minerals. He serves as a reviewer for several international journals and is a member of the American Chemical Society. His research focuses on synthesizing and designing environmentally friendly corrosion inhibitors useful for several industrial applications.

Shikha Dubey, PhD is an assistant professor of analytical chemistry in the Department of Chemistry at Hemvati Nandan Bahuguna Garhwal University. She has synthesized various nanomaterials via simple precipitation methods and green routes to treat metal-laden water and wastewater during her research. Her research interests include nanobiomaterial synthesis and characterization, development of low-cost adsorbents, nanoadsorbents, magnetic nanosorbents for water remediation, and green synthesis of materials, and characterization and applications in environmental remediation.

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Discover the key to a sustainable future with Green Hydrogen, an essential guide for those invested in the innovative potential of green hydrogen production for decarbonization. One of the worldwide objectives for 2050 is to decarbonize the planet. According to the International Energy Agency s most recent projections, the world s energy demand will rise by 25% to 30% by 2040. In an economy that depends on coal and oil, this will increase CO2, exacerbating climate change. Decarbonizing the Earth envisions a different world in 2050 one that is more open, effective, and sustainable, powered by clean energy like green hydrogen. Generating an element like hydrogen is one of the keys to achieving this goal because, unlike coal and oil, green hydrogen is a pure energy source that emits water vapor and leaves no residue in the air. Industry and hydrogen have a long-standing, global partnership that will only grow stronger as the planet moves away from fossil fuels. Green Hydrogen discusses the challenges and opportunities of sustainable hydrogen production and its applications in different industries, including heat and power generation, industry feedstock, and goods and passenger transport.