Overview

Sustainable Technologies for the Energy Transition integrates engineering, economics, policy, and environmental perspectives to provide a comprehensive view of how sustainable energy technologies can be effectively deployed across various sectors. It offers insights into energy storage solutions and decarbonisation strategies needed for transitioning both industrial clusters and smaller-scale systems. Extending across multiple disciplines, the book encompasses mechanical- and chemical-based renewable energy technologies, energy management tools, and governance frameworks for a circular economy. It includes theoretical modelling, case studies, and multicriteria decision-making to emphasise practical solutions tailored to specific regions and industries. The book will be of interest to energy professionals, researchers, and policymakers working towards achieving a net-zero future.

Full Product Details

Author:   Aliyu M. Aliyu ,  Joseph Xavier Francisco Ribeiro
Publisher:   Taylor & Francis Ltd
Imprint:   CRC Press
ISBN:  

9781041001058

ISBN 10:   1041001053
Pages:   402
Publication Date:   23 December 2025
Audience:   Professional and scholarly ,  College/higher education ,  Professional & Vocational ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
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Table of Contents

1. Integrating Policy, Technology, and Equity as Pathways to a Net-Zero Future. 2. A Comprehensive Framework for Developing Energy Transition Roadmaps. 3. Case Study: Decarbonisation in the UK’s Humber Freeport. 4. Conceptual SLOPE Modelling for Decarbonising Energy Sectors at the Global Level. 5. Direct Air CO2 Capture. 6. Revolutionising Energy Systems with Power-to-X and Hydrogen Technologies. 7. Economic, Environmental, and Societal Returns of Solar Energy Use in Public Buildings. 8. Innovative Energy Storage Solutions for Bridging Intermittency in Renewable Energy Systems. 9. Advances in Solar Photovoltaic Technologies. 10. Modelling the Thermal Characteristics of a Glasshouse Coupled with a Solar Thermal Heating System. 11. The Role of Nuclear Energy in the Sustainable Energy Transition. 12. Case Study: Performance Analysis of a Grid-Connected Solar PV Plant Using IEC 61724 Standard. 13. Case Study: The Potential of Wind Energy Sources and its Utilisation in Bangladesh. 14. Evaluating the Environmental Sustainability of School Design in Palestine: A Case Study Assessment of the Wadi al Mughair School. 15. Adaptive Approach to Predicting Users Personal Thermal Comfort using Artificial Neural Networks (ANN). 16. Location-Specific Wind Turbine Blade Design using Blade Element Momentum Theory and Computational Fluid Dynamics. 17. Innovations and Sustainability in Biofuel Production: Exploring the future of bioethanol, biobutanol, and biohydrogen. 18. Chemical Recycling of Plastic Waste: Alternative Fuels and Circular Economy for the Sustainable Energy Transition. 19. Bioenergy and Thermochemical Processing of Biomass. 20. The Outlook Towards a Successful Energy Transition.

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Author Information

Dr. Aliyu M. Aliyu is an Associate Professor at the University of Lincoln, UK. He received a PhD from Cranfield University, UK and an MSc from the University of Manchester, UK. He previously worked as a Research Fellow in Flow Diagnostics at the University of Huddersfield, UK and contributed to a Rolls-Royce Ultrafan gas turbine transmissions project at the University of Nottingham, UK. His research focuses on sustainable energy, heat and mass transfer, and fluid mechanics related to both chemical- and mechanical-based energy technologies. Dr. Aliyu has published 90 journal and conference articles as well as completed more than 400 article peer reviews. He also serves as an Associate Editor for Frontiers in Chemical Engineering - Sustainable Process Engineering and is the Lead Author for SDG7 in UNEP's flagship GEO-7 report. Dr. Joseph Xavier Francisco Ribeiro is a distinguished academic who earned his PhD at Yangtze University, China. He is recognised for his contributions to fluid dynamics, waste management, and renewable energy policy with his research published in numerous reputable journals. At Kumasi Technical University in Ghana, his research focuses on modelling, multiphase flow dynamics, renewable energy, frequently integrating machine learning techniques. Dr. Ribeiro has research collaborations in Germany, China, and the United Kingdom working on a wide range of renewable energy topics.

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