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Elsevier

Hydrogen, Biomass and Bioenergy

Integration Pathways for Renewable Energy Applications

  • 1st Edition - June 16, 2020
  • Latest edition
  • Editors: Bruno G. Pollet, Jacob Joseph Lamb
  • Language: English

Hydrogen and Bioenergy: Integration Pathways for Renewable Energy Applications focuses on the nexus between hydrogen and carbon compounds as energy carriers, with a particula… Read more

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Description

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.

Key features

  • 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

Readership

Corporations, Researchers, Engineers, Health professionals, Physicians, Consultants

Table of contents

  1. Introduction

  2. Traditional Routes for Hydrogen Production and Carbon Conversion

    1. Biochemical Route

    2. Thermochemical Route

      1. Reforming

      2. Oxidation

      3. Shift Reaction

      4. Nuclear and Solar Thermal Hydrogen Production

    3. Electrochemical Route

  3. Emerging Routes for Hydrogen and Carbon Integration

    1. Biochemical Route

    2. Thermochemical Route

      1. Capture with Sequestration or Reuse

    3. Electrochemical Route

  4. Sources and Storage

    1. Biochemical Route

    2. Thermochemical Route

    3. Electrochemical Route

  5. The Nexus: Beneficially Crossing Technologies

  6. Hydrogen and Biomass to Liquid

  7. Hydrogen and Biogas

  8. Transition to an Infrastructure for Renewable Energy

  9. Conclusions

Product details

  • Edition: 1
  • Latest edition
  • Published: June 17, 2020
  • Language: English

About the editors

BP

Bruno G. Pollet

Bruno G. Pollet is a full Professor of Renewable Energy at the Department of Energy and Process Engineering at the Norwegian University of Science and Technology (NTNU) in Trondheim. His research covers a wide range of areas in Electrochemical Engineering, Electrochemical Energy and Sono-electrochemistry (the use of Power Ultrasound in Electrochemistry) from the development of novel materials, hydrogen fuel cell to water treatment/disinfection demonstrators & prototypes. He was a Professor of Energy Materials and Systems at the University of the Western Cape (South Africa) and R&D Director of the National Hydrogen South Africa (HySA) Systems Competence Centre. He was also a co-founder and an Associate Director of the University of Birmingham Centre for Hydrogen and Fuel Cell Research in the UK. He was awarded a Diploma in Chemistry and Material Sciences from the Université Joseph Fourier (France), a BSc (Hons) in Applied Chemistry from Coventry University (UK) and an MSc in Analytical Chemistry from The University of Aberdeen (UK). He also gained his PhD in Physical Chemistry in the field of Electrochemistry and Sonochemistry at the Coventry University Sonochemistry Centre.
Affiliations and expertise
Centre for Renewable Energy, Department of Energy and Process Engineering, Faculty of Engineering, Norwegian University of Science and Technology (NTNU), Trondheim, Norway

JL

Jacob Joseph Lamb

Jacob Joseph Lamb, PhD, is an Associate Professor at NTNU – The Norwegian University of Science and Technology, Trondheim, Norway. He specializes in digitalization of energy storage and conversion systems. He is the leader of the Renewable Energy Bachelor of Engineering program at NTNU, and teaches in renewable energy systems, energy storage and process engineering. He has published a number of articles and book chapters in various energy production, conversion, and storage fields.

Affiliations and expertise
Department of Electronic Systems & Department of Energy and Process Engineering & ENERSENSENTNU, Norway

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