Progresses in Ammonia: Science, Technology and Membranes


Book Description

Progresses in Ammonia: science, technology and membranes-Applications and use coversvarious ammonia applicatins such as in sensors and devices, in dyes and cleaning, in cooling systems, in desalination, in anaerobic digestion, in terrestrial vegetation, in fabric, textile and leather products, in metals heat-treating, in acid deposition, in carbon dioxide capture, in the hydrogen production, storage and generation. - Covers various applications of ammonia as an energy source and as an alternative power generation - Discusses ammonia applications in various chemical and petrochemical plants - Describes novel and non-industrial usages of ammonia, such as human care and treatment




Progresses in Ammonia: Science, Technology and Membranes


Book Description

Progresses in Ammonia: Science, Technology and Membranes: Production and Separation covers the production and separation of ammonia. The book includes various kind of membranes (such as composite and membrane based systems, ceramic membrane cells, oxygen conducting membrane), membrane systems (such as membrane reactors, membrane distillation, immobilized cyanobacteria in membranes, using hydrophobic membranes, fuel cell technology, electrode membrane, etc.). - Describes membrane-based approaches for producing ammonia - Introduces novel applications of ammonia combined with membranes, such as fuel cells and electrode membranes - Explores the role of membranes in ammonia recovery




Ammonia Fuel Cells


Book Description

Ammonia Fuel Cells covers all aspects of ammonia fuel cell technologies and their applications, including their theoretical analysis, modeling studies and experimental investigations. The book analyzes the role of integrated ammonia fuel cell systems within various renewable energy resources and existing energy systems.




Progresses in Ammonia: Science, Technology and Membranes


Book Description

Progresses in Ammonia: Science, Technology and Membranes: Applications and Use covers various ammonia applications such as in sensors and devices, in dyes and cleaning, in cooling systems, in desalination, in anaerobic digestion, in terrestrial vegetation, in fabric, textile and leather products, in metals heat-treating, in acid deposition, in carbon dioxide capture, in the hydrogen production, storage and generation.




Emerging Trends and Advances in Microbial Electrochemical Technologies


Book Description

Emerging Trends and Advances in Microbial Electrochemical Technologies: Hypothesis, Design, Operation and Applications provides a lab to field approach involved in the progress of microbial electrochemical technologies. Focusing on recent trends and advances in this rapidly growing field, the book provides comprehensive information on the basics while also explaining new approaches to microbial electrochemical technologies for environmental applications, including wastewater and waste treatment, bioremediation of contaminated sites, resource recovery, usable electricity generation, greenhouse gas emissions reduction and bio-sensing. Explaining current trends and advances in practice, and elaborating on realistic technological areas and commercialization possibilities and large-scale applications, this book provides new insights into the design of microbial electrochemical technologies and future directions. - Introduces advanced applications, design, processes, and materials in microbial electrochemical technologies - Explores how to translate research into real-world applications - Provides a roadmap for the specific direction of realistic research, including commercialization possibilities




Advances in Hydrogen Energy


Book Description

In the future, our energy systems will need to be renewable and sustainable, efficient and cost-effective, convenient and safe. Hydrogen has been proposed as the perfect fuel for this future energy system. The availability of a reliable and cost-effective supply, safe and efficient storage, and convenient end use of hydrogen will be essential for a transition to a Hydrogen Economy. Research is being conducted throughout the world for the development of safe, cost-effective hydrogen production, storage, and end-use technologies that support and foster this transition. This book is a collection of important research and analysis papers on hydrogen production, storage, and end-use technologies that were presented at the American Chemical Society National Meeting in New Orleans, Louisiana, USA, in August 1999.







Progress in Filtration and Separation


Book Description

Progress in Filtration and Separation contains reference content on fundamentals, core principles, technologies, processes, and applications. It gives detailed coverage of the latest technologies and research, models, applications and standards, practical implementations, case studies, best practice, and process selection. Extensive worked examples are included that cover basic calculations through to process design, including the effects of key variables. Techniques and topics covered include pervaporation, electrodialysis, ion exchange, magnetic (LIMS, HIMS, HGMS), ultrasonic, and more. - Solves the needs of university based researchers and R&D engineers in industry for high-level overviews of sub-topics within the solid-liquid separation field - Provides insight and understanding of new technologies and methods - Combines the expertise of several separations experts




Sustainable Ammonia Production


Book Description

This book presents sustainable synthetic pathways and modern applications of ammonia. It focuses on the production of ammonia using various catalytic systems and its use in fuel cells, membrane, agriculture, and renewable energy sectors. The book highlights the history, investigation, and development of sustainable pathways for ammonia production, current challenges, and state-of-the-art reviews. While discussing industrial applications, it fills the gap between laboratory research and viable applications in large-scale production.




Plasma Catalysis


Book Description

Plasma catalysis is gaining increasing interest for various gas conversion applications, such as CO2 conversion into value-added chemicals and fuels, N2 fixation for the synthesis of NH3 or NOx, methane conversion into higher hydrocarbons or oxygenates. It is also widely used for air pollution control (e.g., VOC remediation). Plasma catalysis allows thermodynamically difficult reactions to proceed at ambient pressure and temperature, due to activation of the gas molecules by energetic electrons created in the plasma. However, plasma is very reactive but not selective, and thus a catalyst is needed to improve the selectivity. In spite of the growing interest in plasma catalysis, the underlying mechanisms of the (possible) synergy between plasma and catalyst are not yet fully understood. Indeed, plasma catalysis is quite complicated, as the plasma will affect the catalyst and vice versa. Moreover, due to the reactive plasma environment, the most suitable catalysts will probably be different from thermal catalysts. More research is needed to better understand the plasma–catalyst interactions, in order to further improve the applications.