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Methanol Fuel in Transportation Sector and Fuel Cells
This book provides a comprehensive overview of methanol fuel. It reviews challenges and solutions in using methanol fuel in the transportation sector. Methanol is also used as the fuel in direct methanol fuel cells (DMFCs), and thus, the book reviews their working principles, performance, challenges, solutions, and applications. It also explores new developments in anode and cathode electrocatalysts, with an emphasis on nanostructured carbon support materials and their structure, electrochemical properties, and performance.
Thermodynamics and Energy Engineering
This book is a primary survey of basic thermodynamic concepts that will allow one to predict states of a fuel cell system, including potential, temperature, pressure, volume and moles. The specific topics explored include enthalpy, entropy, specific heat, Gibbs free energy, net output voltage irreversible losses in fuel cells and fuel cell efficiency. It contains twelve chapters organized into two sections on “Theoretical Models” and “Applications.” The specific topics explored include enthalpy, entropy, specific heat, Gibbs free energy, net output voltage irreversible losses in fuel cells and fuel cell efficiency.
Nanotechnology-Enhanced Solid Materials
This new volume highlights the emergence and rapid development of nanotechnology-enhanced solid materials and the ways they have impacted almost every aspect of nanoengineering. The chapters explore the role of nanomaterials in industries in diverse applications, such as for insulation and reinforcement of composite materials. The book focuses on the design, synthesis, and properties of solid materials, presenting updated, practical, and systematic knowledge on the modification of nanomaterials. The topics include photovoltaic applications of solid carbons, mesoporous silica nanomaterials, smart biopolymer composites and polymer solids, graphene oxide as an emerging solid-based nanocomposite material, steady-state creep deformation, and more.
Green Chemistry for Environmental Sustainability - Prevention-Assurance-Sustainability (P-A-S) Approach
Green chemistry for environmental sustainability is an interdisciplinary science that seeks to reduce environmental problems and establish global sustainability. Given the recent development of energy-efficient technologies and the synthesis of green materials, research shows that green chemistry can be a powerful candidate for future technologies. This book discusses synthesis, catalysis, nanosynthesis, green processes, energy-efficient materials, biodegradable raw materials, and comprehensive environmental remediation, making it an excellent resource for aspiring researchers. This book explains what developments are taking place in green chemistry, why it is needed, what new methods can be...
Electrocatalysis and Electrocatalysts for a Cleaner Environment
This book discusses electrocatalysis and electrocatalysts for energy, water electrolysis, water treatment, CO2 conversion, and green chemistry. It reviews various electrocatalysts and their properties and electrochemical performances. The first section of the book covers topics in direct alcohol fuel cells including Pt-based electrocatalysts as non-carbon electrode support materials and the development of electrocatalysts for direct methanol fuel cells. The second section of the book covers various topics in electrocatalysis and electrocatalysts for a cleaner environment, including electrocatalysts for the conversion of CO2 to valuable products and SYNGAS, electrocatalysts for water electrolysis, and much more.
Nanoelectrocatalysts for Energy and Water Treatment
Nanomaterials have recently garnered significant attention and practical importance for heterogeneous electrocatalysis. This book presents recent developments in the design, synthesis, and characterisation of nanostructured electrocatalytic materials, with a focus on applications to energy and wastewater treatment. Electrocatalytic nanomaterials can enhance process efficiency and sustainability, thus providing innovative solutions for a wide array of areas such as sustainable energy production, conversion, and wastewater treatment. Readers will gain insights into the latest breakthroughs in electrocatalysis and the activity of nanomaterials in energy conversion applications, e.g., fuel cells, hydrogen production, water splitting, and electro/photocatalytic water splitting, as well as for wastewater treatment. The book explores the development of advanced electrocatalysts, particularly hybrid materials.
Electrocatalysts for Fuel Cells and Hydrogen Evolution
The book starts with a theoretical understanding of electrocatalysis in the framework of density functional theory followed by a vivid review of oxygen reduction reactions. A special emphasis has been placed on electrocatalysts for a proton-exchange membrane-based fuel cell where graphene with noble metal dispersion plays a significant role in electron transfer at thermodynamically favourable conditions. The latter part of the book deals with two 2D materials with high economic viability and process ability and MoS2 and WS2 for their prospects in water-splitting from renewable energy.
Ruthenium
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Recent Development in Energy Conversion Systems
In this industrial and technological age, energy plays a principal role in sustainable development. This is connected to issues regarding availability, production processes, utilization, and environmental impact. Due to the increased rate of population growth, the energy demand in the entire world is getting to the level that it may not be sustained in the nearest future if drastic action is not taken to address the situation, especially from research and development perspectives. "None of the millennium development goals (MDGs) can be completed without considerable improvements in the quality and quantity of energy services in developing countries," according to the United Nations Development Programme (UNDP). Based on this fact, UNDP is making efforts, especially in developing countries to ensure that people have access to sustainable sources of clean, reliable, and affordable energy since every aspect of human development is highly impacted by this vital resource.
