Waste to Renewable Biohydrogen

Waste to Renewable Biohydrogen
Author: Quanguo Zhang,Chao He,Jingzheng Ren,Michael Evan Goodsite
Publsiher: Academic Press
Total Pages: 298
Release: 2021-04-30
ISBN 10: 0128216549
ISBN 13: 9780128216545
Language: EN, FR, DE, ES & NL

Waste to Renewable Biohydrogen Book Review:

Waste to Renewable Biohydrogen: Volume 1: Advances in Theory and Experiments provides a comprehensive overview of the advances, processes and technologies for waste treatment to hydrogen production. It introduces and compares the most widely adopted and most promising technologies, such as dark fermentation, thermochemical and photosynthetic processes. In this part, potential estimation, feasibility analysis, feedstock pretreatment, advanced waste-to-biohydrogen processes and each individual systems element are examined. The book delves into the theoretical and experimental studies for the design and optimization of different waste-to-biohydrogen processes and systems. Covering several advanced waste-to-biohydrogen pretreatment and production processes, this book investigates the future trends and the promising pathways for biohydrogen production from waste. Discusses the potential, feasibility, progress, challenges and prospect of waste-to-biohydrogen technologies Explores the most promising waste-to-biohydrogen technologies including dark fermentation, thermochemical and photosynthetic processes Investigate the mechanisms and the effects of the influential factors on different waste-to-biohydrogen processes

Waste to Renewable Biohydrogen Volume 2

Waste to Renewable Biohydrogen  Volume 2
Author: Quanguo Zhang,Chao He,Jingzheng Ren,Michael Evan Goodsite
Publsiher: Academic Press
Total Pages: 312
Release: 2021-10-01
ISBN 10: 012821922X
ISBN 13: 9780128219225
Language: EN, FR, DE, ES & NL

Waste to Renewable Biohydrogen Volume 2 Book Review:

Waste to Renewable Biohydrogen, Volume Two: Numerical Modelling and Sustainability Assessment provides an integrated approach on the experimental, modeling and sustainability aspects of waste-to-biohydrogen systems. The book focuses on processes for waste treatment to hydrogen production, delving into modeling and simulation methodologies for the design and optimization of different processes and systems. In addition, it looks at the application of computational fluid dynamics and artificial neural networks. Finally, it addresses the economic, environmental and sustainability implications of waste-to-biohydrogen systems, covering several techniques for cost-benefit analysis, techno-economic analysis, lifecycle assessment, sustainability ranking and supply chain design. This well-rounded reference supports decision-making for energy researchers and industry practitioners alike, but it is also ideal for graduate students, early career researchers and waste management professionals. Includes numerical simulation models for environmental performances and sustainable supply chains Explores modeling methodologies for the optimization and upscaling of sustainable technologies and systems Offers global case studies and comparisons of different feedstocks

Hydrogen Biomass and Bioenergy

Hydrogen  Biomass and Bioenergy
Author: Bruno G. Pollet,Jacob Joseph Lamb
Publsiher: Academic Press
Total Pages: 186
Release: 2020-06-26
ISBN 10: 0081026463
ISBN 13: 9780081026465
Language: EN, FR, DE, ES & NL

Hydrogen Biomass and Bioenergy Book Review:

Hydrogen and Bioenergy: Integration Pathways for Renewable Energy Applications focuses on the nexus between hydrogen and carbon compounds as energy carriers, with a particular focus on renewable energy solutions. This book explores opportunities for integrating hydrogen in the bioenergy value chain, such as adding hydrogen to upgrade biofuels and lower CO2 emissions during production. The book also takes the inverse path to examine hydrogen production by chemical and biological routes from various bioresources, including solid waste, wastewater, agricultural products and algae. This broad coverage of technologies and applications presents a unique resource for researchers and practitioners developing integrated hydrogen and bioenergy technologies. This book will also be useful for graduate students and new researchers, presenting an introductory resource in the areas of hydrogen and bioenergy. Energy planners and engineers will also benefit from this content when designing and deploying hydrogen infrastructure for power, heating and transportation. Provides a comprehensive picture of hydrogen generation from biomass, as well as other sources of hydrogen for power, heating, transportation and storage applications Explores the ways hydrogen can be utilized in combination with bio-derived hydrocarbon chains to produce a variety of substitutes for fossil fuel-based petrochemicals Fills the gap between theoretical knowledge and technology viability Analyzes how these technologies fit into an overall energy strategy targeted at expanding the renewable energy sector

Biohydrogen

Biohydrogen
Author: Ganesh D. Saratale,Rijuta G. Saratale,Jo-Shu Chang
Publsiher: Elsevier Inc. Chapters
Total Pages: 588
Release: 2013-06-11
ISBN 10: 012808359X
ISBN 13: 9780128083598
Language: EN, FR, DE, ES & NL

Biohydrogen Book Review:

The world’s energy markets rely heavily on fossil fuels (such as coal, petroleum, and natural gases). However, due to increasing energy demands, depleting reserves of fossil fuels, and increasing negative effects on the environment (e.g., global warming and climate changes), as well as growing political instability in oil-producing nations, the world is facing a major energy threat that needs to be solved by virtue of alternative energy sources utilizing renewable resources. The only natural, renewable carbon resource known with large enough capacity to substitute for fossil fuels is biomass. Thus, energy from biomass is considered to be one of the most promising alternatives to fossil fuels. Among the existing biomass energy/biofuels, biohydrogen has received considerable attention as it is clean, renewable, has a high energy content, and does not contribute to the greenhouse effect. Biomass is projected as a virtually eternal raw material for hydrogen (H2) production; however, the main bottleneck is the low hydrogen yield arising from poor efficiency on direct microbial assimilation of biomass. Therefore, technologies leading to more efficient and commercially viable production of biohydrogen from biomass and other renewable resources are urgently demanded. This chapter sheds light on some of the practical approaches of fermentative H2-generating processes utilizing a variety of biomass and renewable resources as substrate. This chapter also emphasizes biohydrogen production technology that could maximize hydrogen yield by designing efficient bioprocess integration and energy and waste minimization. Improving the hydrolysis of biomass has been recognized as a key step toward biohydrogen production. Considerable research efforts made on improving the pretreatment and hydrolysis of biomass materials are also addressed. Emphasis is given to discussion of the process based on important operating factors involved and to delineation of some of the process limitations. The aim of this chapter is to provide rapidly expanding information on biohydrogen production from renewable resources and to offer clues and possibilities for enhancing the performance of natural waste utilization and dark fermentative hydrogen production to resolve issues related to food security, climate change, energy security, and clean development in the future.

Bio hydrogen Production from Renewable Organic Wastes

Bio hydrogen Production from Renewable Organic Wastes
Author: Anonim
Publsiher: Unknown
Total Pages: 67
Release: 2004
ISBN 10: 1928374650XXX
ISBN 13: OCLC:68496598
Language: EN, FR, DE, ES & NL

Bio hydrogen Production from Renewable Organic Wastes Book Review:

Methane fermentation has been in practice over a century for the stabilization of high strength organic waste/wastewater. Although methanogenesis is a well established process and methane--the end-product of methanogenesis is a useful energy source; it is a low value end product with relatively less energy content (about 56 kJ energy/g CH4). Besides, methane and its combustion by-product are powerful greenhouse gases, and responsible for global climate change. So there is a pressing need to explore alternative environmental technologies that not only stabilize the waste/wastewater but also generate benign high value end products. From this perspective, anaerobic bioconversion of organic wastes to hydrogen gas is an attractive option that achieves both goals. From energy security stand point, generation of hydrogen energy from renewable organic waste/wastewater could substitute non-renewable fossil fuels, over two-third of which is imported from politically unstable countries. Thus, biological hydrogen production from renewable organic waste through dark fermentation represents a critically important area of bioenergy production. This study evaluated both process engineering and microbial physiology of biohydrogen production.

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentation

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentation
Author: Michaela Krupp
Publsiher: Unknown
Total Pages: 132
Release: 2007
ISBN 10: 9783832264789
ISBN 13: 3832264787
Language: EN, FR, DE, ES & NL

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentation Book Review:

Biohydrogen

Biohydrogen
Author: Ashok Pandey,Jo-Shu Chang,Patrick C Hallenbeck,Christian Larroche
Publsiher: Newnes
Total Pages: 588
Release: 2013-06-11
ISBN 10: 0444595481
ISBN 13: 9780444595485
Language: EN, FR, DE, ES & NL

Biohydrogen Book Review:

This book provides in-depth information on basic and applied aspects of biohydrogen production. It begins with an introduction to the topic, and follows with the basic scientific aspects of biohydrogen production, such as the enzyme involved in biohydrogen production, the microorganisms and metabolic engineering information. It then provides state-of-art information on various aspects of biohydrogen production methods such as from solid wastes, from industrial effluents, thermo-chemical route for biohydrogen production, etc. It also includes information on engineering aspects such as the design of bioreactors for biohydrogen production and scale-up issues. Finally, it touches on the issues of hydrogen economy and commercialization. The book introduces you to all aspects of biohydrogen research, helping you understand the various issues involved and plan your own research based on recent findings and commercial needs. Provides information on the most advanced and innovative biohydrogen technologies, including fermentation and metabolic processes Provides examples on large-scale and commercial applications of biohydrogen processes and explains the steps necessary for scaling-up Explains the chemistry/theory of the processes involved and provides information on integration of the various processes and technologies on biohydrogen Guides through the process design, reactors and materials selection Devotes a whole chapter on the economical aspects of the processes and their commercialization

Biohydrogen Production Sustainability of Current Technology and Future Perspective

Biohydrogen Production  Sustainability of Current Technology and Future Perspective
Author: Anoop Singh,Dheeraj Rathore
Publsiher: Springer
Total Pages: 320
Release: 2016-08-22
ISBN 10: 8132235770
ISBN 13: 9788132235774
Language: EN, FR, DE, ES & NL

Biohydrogen Production Sustainability of Current Technology and Future Perspective Book Review:

Increase in green, renewable and sustainable energy demand due to higher environmental impacts (e.g. Greenhouse gases emissions, climate change, etc.) on consumption of fossil fuel resource put down an extra pressure on government, researchers and industrialists. Among several available biofuel options, biohydrogen is considered as one of the best environmentally clean fuel and a strong candidate to fulfil the future demand of sustainable energy resource. Although, biohydrogen production technology and its use as a fuel is still in infancy stage. Selection of most sustainable production pathway, increase in production upto industrial scale and cost efficiency are some issue still persist with the biohydrogen research. “Biohydrogen Production: Sustainability of Current Technology and Future Perspective” is giving an insight for the sustainable production of biohydrogen at industrial scale. The process of biohydrogen production is complex and to opt the best suited production system for industrial scale is a frantic task. This book will provide an in depth information on all available technologies for biohydrogen production and feedstock options to choose upon. This book is also providing information on present status of the research in the field and possibility to change future fuel economy in to biohydrogen economy. Experts views provided in the chapters by renowned researchers from all over the globe in the field of biohydrogen research made this book a cornucopia of present research and future perspective of biohydrogen. This book is targeted at the researchers working on biohydrogen as well as the bioenergy scientist planning to move towards biohydrogen research. This book will provide a platform for motivation of researchers and industrialists for innovative ideas and thoughts to bring biohydrogen production at industrial scale.

Biovalorisation of Wastes to Renewable Chemicals and Biofuels

Biovalorisation of Wastes to Renewable Chemicals and Biofuels
Author: R. Navanietha Krishnaraj,Rajesh K. Sani
Publsiher: Unknown
Total Pages: 422
Release: 2019-10-25
ISBN 10: 0128179511
ISBN 13: 9780128179512
Language: EN, FR, DE, ES & NL

Biovalorisation of Wastes to Renewable Chemicals and Biofuels Book Review:

Biovalorisation of Wastes to Renewable Chemicals and Biofuels addresses advanced technologies for converting waste to biofuels and value-added products. Biovalorisation has several advantages over conventional bioremediation processes as it helps reduce the costs of bioprocesses. Examples are provided of several successfully commercialized technologies, giving insight into developing, potential processes for biovalorisation of different wastes. Different bioprocess strategies are discussed for valorising the wastes coming from the leather industry, olive oil industry, pulp and paper, winery, textile, and food industries, as well as aquaculture. A section on biorefinery for hydrocarbons and emerging contaminants is included to cover concepts on biodesulfurization of petroleum wastes, leaching of heavy metals from E - waste, and bioelectrochemical processes for CO2. Chapters on algal biorefinery are also included to focus on the technologies for conversion of CO2 sequestration and wastewater utilization. Biovalorisation of Wastes to Renewable Chemicals and Biofuels can be used as course material for graduate students in chemical engineering, chemistry, and biotechnology, and as a reference for industrial professionals and researchers who want to gain a basic understanding on the subject. Covers a wide range of topics, from the conversion of wastes to organic acids, biofuels, biopolymers and industrially relevant products Bridges the gap between academics and industry Written in a lucid and self-explanatory style Includes activities/quiz/critical questions

System Integration of Hydrogen Energy Technologies Using Renewable Energy Resources

System Integration of Hydrogen Energy Technologies Using Renewable Energy Resources
Author: Tarek A. Mohammed Hamad
Publsiher: Unknown
Total Pages: 134
Release: 2015
ISBN 10: 1928374650XXX
ISBN 13: OCLC:913393182
Language: EN, FR, DE, ES & NL

System Integration of Hydrogen Energy Technologies Using Renewable Energy Resources Book Review:

"The objective of this work has two major tasks that investigation the use of CHHP system at the Missouri University of Science and Technology (Missouri S & T) campus and studying solid waste as renewable source of energy: current and future possibility in Libya. Task one has three major topics. In Topic I, Design of Combined Hydrogen, Heat and Power (CHHP) system for the campus using local resources and treated biogas can be used to generate CHHP using a Molten Carbonate Fuel Cell (MCFC). In Topic II, hydrogen recovery and cleaning system, Heat recovery and electric power usage, hydrogen compression, storage, and dispensing/distribution system, electricity use and economic benefits of the system in operation, and thermal use. In Topic III, utilization of hydrogen production, hydrogen end-uses, CHHP hydrogen output, and hydrogen application consider but not used in the design. In task 2, generation of solid waste in Libya, overview of Waste-to-energy (WTE) conversions, solid waste management, WTE benefits and challenges in Libya. Results for Tasks I and II have been presented."--Abstract, page iv.

Biohydrogen Production from Organic Wastes

Biohydrogen Production from Organic Wastes
Author: Jianlong Wang,Yanan Yin
Publsiher: Springer
Total Pages: 433
Release: 2017-05-27
ISBN 10: 9811046751
ISBN 13: 9789811046759
Language: EN, FR, DE, ES & NL

Biohydrogen Production from Organic Wastes Book Review:

This book comprehensively introduces fundamentals and applications of fermentative hydrogen production from organic wastes, consisting of eight chapters, covering the microbiology, biochemistry and enzymology of hydrogen production, the enrichment of hydrogen-producing microorganisms, the pretreatment of various organic wastes for hydrogen production, the influence of different physicochemical factors on hydrogen production, the kinetic models and simulation of biological process of fermentative hydrogen production, the optimization of biological hydrogen production process and the fermentative hydrogen production from sewage sludge. The book summarizes the most recent advances that have been made in this field and discusses bottlenecks of further development. This book gives a holistic picture of this technology and details the knowledge through illustrative diagrams, flow charts, and comprehensive tables. It is intended for undergraduate and graduate students who are interested in bioenergy and wastes management, researchers exploring microbial fermentation process, and engineers working on system optimization or other bioenergy applications.

Biohydrogen

Biohydrogen
Author: Ayhan Demirbas
Publsiher: Springer Science & Business Media
Total Pages: 276
Release: 2009-06-30
ISBN 10: 1848825110
ISBN 13: 9781848825116
Language: EN, FR, DE, ES & NL

Biohydrogen Book Review:

Biohydrogen: For Future Engine Fuel Demands covers the production, purification, storage, pipeline transport, usage, and safety of biohydrogen. Hydrogen promises to be the most significant fuel source of the future, due to its global availability and the fact that water is its only by-product. Biofuels such as bioethanol, biodiesel, bio-oil, and biohydrogen are produced using technologies for thermochemically and biologically converting biomass. Hydrogen fuel production technologies can make use of either non-renewable sources, or renewable sources such as wind, solar, and biorenewable resources. Biohydrogen: For Future Engine Fuel Demands reviews all of the modern biomass-based transportation fuels, including bioethanol, biodiesel, biogas, biohydrogen, and fuel cells. The book also discusses issues of biohydrogen economy, policy and environmental impact. Biohydrogen looks set to be the fuel of choice in the future, replacing both fossil fuels and biorenewable liquid fuels.

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentatio

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentatio
Author: Michaela Krupp
Publsiher: Unknown
Total Pages: 132
Release: 2007
ISBN 10: 1928374650XXX
ISBN 13: OCLC:793451663
Language: EN, FR, DE, ES & NL

Biohydrogen Production from Organic Waste and Wastewater by Dark Fermentatio Book Review:

Biomass Biofuels Biochemicals

Biomass  Biofuels  Biochemicals
Author: Ashok Pandey,S.Venkata Mohan,Jo-Shu Chang,Patrick C. Hallenbeck,Christian Larroche
Publsiher: Elsevier
Total Pages: 540
Release: 2019-01-12
ISBN 10: 0444642048
ISBN 13: 9780444642042
Language: EN, FR, DE, ES & NL

Biomass Biofuels Biochemicals Book Review:

Biomass, Biofuels and Biochemical: Biohydrogen, Second Edition, provides general information, basic data and knowledge on one of the most promising renewable energy sources, including its production and applications. The book describes a green technology for abating environmental crisis and enabling the transformation into a sustainable future. Researchers, students and science enthusiasts alike will appreciate this holistic view of biohydrogen production, which details the functional mechanisms employed, operational configurations, influencing factors and integration strategies. With 50% more content, this new edition outlines the scaling of processes and features material from experienced international researchers working at the interface of biotechnology and engineering. Hydrogen is an energy carrier and is available in chemically combined forms in water, fossil fuels and biomass. About 95 % of current hydrogen requirements are produced through fossil fuel sources. Being a clean energy source, its future widespread use as a fuel is likely to be in the transportation and distributed power generation sectors. Depicts a holistic view of biohydrogen in a unified approach making it a single point of reference Includes new technologies and perspectives giving up-to-date state-of-the-art information on research and commercialization Provides strategic integrations of acidogenesis with various bioprocesses essential in establishing a circular biorefinery Includes new research findings since the 1st edition appeared, with 50% more content Integrates various subjects including biotechnology, bioengineering, molecular biology, environmental science, etc. Reviews the various topics from a global perspective and an international list of contributors

Renewable Hydrogen Production

Renewable Hydrogen Production
Author: Ibrahim Dincer,Haris Ishaq
Publsiher: Elsevier
Total Pages: 382
Release: 2021-12-06
ISBN 10: 0323851894
ISBN 13: 9780323851893
Language: EN, FR, DE, ES & NL

Renewable Hydrogen Production Book Review:

Renewable Hydrogen Production provides a comprehensive analysis of renewable energy-based hydrogen production. Through simulation analysis and experimental investigations, the book provides fundamentals, compares existing hydrogen production applications, discusses novel technologies, and offers insights into the future directions of this rapidly evolving industry. This all-in-one resource on how to produce clean hydrogen production to enhance energy efficiency and support sustainable development will appeal to a wide variety of industries and professionals. Addresses the production of clean hydrogen from the major sources of renewable energy, including wind, solar, geothermal, hydro, biomass and marine energy Presents information from simulations and experimental analyses Offers insights into the future of renewable hydrogen production

Waste Biorefinery

Waste Biorefinery
Author: Thallada Bhaskar,Sunita Varjani,Ashok Pandey,Eldon R. Rene
Publsiher: Elsevier
Total Pages: 536
Release: 2021-02-24
ISBN 10: 0128218940
ISBN 13: 9780128218945
Language: EN, FR, DE, ES & NL

Waste Biorefinery Book Review:

Waste Biorefinery: Value Addition through Resources Utilization provides scientific and technical information surrounding the most advanced and innovative processing technologies used for the conversion of biogenic waste to biofuels, energy products and biochemicals. The book covers recent developments and achievements in the field of biochemical, thermo-chemical and hybrid methods and the necessities and potentials generated by different kinds of residual streams, including biomass in presumably more decentralized biorefineries. An assortment of case-studies from developing and developed countries illustrate the topics presented, covering energy, chemicals, fuels, food for animal recovery from different waste matrices, and more. Finally, the advantages and limitations of different technologies are discussed, considering local energy demand, government policies, environmental impacts and education in bioenergy. This book will serve as an excellent resource for science graduates, chemical engineers, environmental engineers, biotechnologists and industrial experts in these areas. Provides information on the most advanced and innovative processes for biomass conversion Covers information on biochemical and thermochemical processes and product developments surrounding the principles of biorefining Presents information on the integration of processes and technologies for the production of biofuels, energy products and biochemicals

Waste Biorefinery

Waste Biorefinery
Author: Thallada Bhaskar,Ashok Pandey,S.Venkata Mohan,Duu-Jong Lee,Samir Kumar Khanal
Publsiher: Elsevier
Total Pages: 890
Release: 2018-04-13
ISBN 10: 0444639934
ISBN 13: 9780444639936
Language: EN, FR, DE, ES & NL

Waste Biorefinery Book Review:

Waste Biorefinery: Potential and Perspectives offers data-based information on the most cutting-edge processes for the utilisation of biogenic waste to produce biofuels, energy products, and biochemicals – a critical aspect of biorefinery. The book explores recent developments in biochemical and thermo-chemical methods of conversion and the potential generated by different kinds of biomass in more decentralized biorefineries. Additionally, the book discusses the move from 200 years of raw fossil materials to renewable resources and how this shift is accompanied by fundamental changes in industrial manufacturing technologies (from chemistry to biochemistry) and in logistics and manufacturing concepts (from petrochemical refineries to biorefineries). Waste Biorefinery: Potential and Perspectives designs concepts that enable modern biorefineries to utilize all types of biogenic wastes, and to integrate processes that convert byproduct streams to high-value products, achieving higher cost benefits. This book is an essential resource for researchers and students studying biomass, biorefineries, and biofuels/products/processes, as well as chemists, biochemical/chemical engineers, microbiologists, and biotechnologists working in industries and government agencies. Details the most advanced and innovative methods for biomass conversion Covers biochemical and thermo-chemical processes as well as product development Discusses the integration of technologies to produce bio-fuels, energy products, and biochemicals Illustrates specific applications in numerous case studies for reference and teaching purposes

Biological Wastewater Treatment and Resource Recovery

Biological Wastewater Treatment and Resource Recovery
Author: Robina Farooq,Zaki Ahmad
Publsiher: BoD – Books on Demand
Total Pages: 256
Release: 2017-03-29
ISBN 10: 9535130455
ISBN 13: 9789535130451
Language: EN, FR, DE, ES & NL

Biological Wastewater Treatment and Resource Recovery Book Review:

Biological treatment of wastewater is a low-cost solution for remediation of wastewater. This book focuses on the bioremediation of wastewater, its management, monitoring, role of biofilms on wastewater treatment and energy recovery. It emphasizes on organic, inorganic and micropollutants entering into the environment after conventional wastewater treatment facilities of industrial, agricultural and domestic wastewaters. The occurrence of persistent pollutants poses deleterious effects on human and environmental health. Simple solution for recovery of energy as well as water during biological treatment of wastewater is a viable option. This book provides necessary knowledge and experimental studies on emerging bioremediation processes for reducing water, air and soil pollution.

Biohydrogen

Biohydrogen
Author: G. Balachandar,Namita Khanna,Debabrata Das
Publsiher: Elsevier Inc. Chapters
Total Pages: 588
Release: 2013-06-11
ISBN 10: 0128083565
ISBN 13: 9780128083567
Language: EN, FR, DE, ES & NL

Biohydrogen Book Review:

Hydrogen can be produced sustainably by dark, anaerobic bacterial growth on carbohydrate-rich substrates. This chapter discuses microbiology, biochemistry, molecular biology, and the various other aspects related to dark hydrogen production. Pure cultures, known to produce hydrogen from carbohydrates, include species of Enterobacter and Clostridium. However, for efficient degradation of complex substrates, mixed cultures easily obtainable from natural sources and able to proliferate on nonsterile feedstock are required. Compared to pure substrates, complex substrates, especially different kinds of waste, may offer a sustainable and economical alternative for hydrogen production. However, for maximization of hydrogen production, different physicochemical processes need to be determined. In this regard, the various parameters affecting the dark hydrogen production process, which include pH, temperature, hydraulic retention time, and hydrogen partial pressure, have been discussed in detail. In addition, this chapter discusses the different types of reactors and their suitability to carry out studies on dark fermentative hydrogen production. Overall, the chapter presents a holistic understanding of the dark hydrogen production process and highlights the recent new findings and achievements in the field.

Science and Engineering of Hydrogen Based Energy Technologies

Science and Engineering of Hydrogen Based Energy Technologies
Author: Paulo Emilio Miranda
Publsiher: Academic Press
Total Pages: 438
Release: 2018-11-12
ISBN 10: 0128142529
ISBN 13: 9780128142523
Language: EN, FR, DE, ES & NL

Science and Engineering of Hydrogen Based Energy Technologies Book Review:

Science and Engineering of Hydrogen-Based Energy Technologies explores the generation of energy using hydrogen and hydrogen-rich fuels in fuel cells from the perspective of its integration into renewable energy systems using the most sound and current scientific knowledge. The book first examines the evolution of energy utilization and the role expected to be played by hydrogen energy technologies in the world’s energy mix, not just for energy generation, but also for carbon capture, storage and utilization. It provides a general overview of the most common and promising types of fuel cells, such as PEMFCs, SOFCs and direct alcohol fuel cells. The co-production of chemical and electrolysis cells, as well as the available and future materials for fuel cells production are discussed. It then delves into the production of hydrogen from biomass, including waste materials, and from excess electricity produced by other renewable energy sources, such as solar, wind, hydro and geothermal. The main technological approaches to hydrogen storage are presented, along with several possible hydrogen energy engineering applications. Science and Engineering of Hydrogen-Based Energy Technologies’s unique approach to hydrogen energy systems makes it useful for energy engineering researchers, professionals and graduate students in this field. Policy makers, energy planning and management professionals, and energy analysts can also benefit from the comprehensive overview that it provides. Presents engineering fundamentals, commercially deployed technologies, up-and-coming developments and applications through a systemic approach Explores the integration of hydrogen technologies in renewable energy systems, including solar, wind, bioenergy and ocean energy Covers engineering standards, guidelines and regulations, as well as policy and social aspects for large-scale deployment of these technologies