Methanol Synthesis from CO2: towards achieving Carbon Neutrality
- 1st Edition - July 1, 2026
- Editors: Lebohang Macheli, Yao Yali, Linda L. Jewell, Xinying Liu
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 4 1 7 0 4 - 7
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 4 1 7 0 5 - 4
Methanol Synthesis from CO2: towards achieving Carbon Neutrality explores the conversion of CO2 into methanol, a vital step towards carbon neutrality, and delves into the intric… Read more
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Methanol Synthesis from CO2: towards achieving Carbon Neutrality explores the conversion of CO2 into methanol, a vital step towards carbon neutrality, and delves into the intricate chemical reactions, catalytic mechanisms, and engineering strategies that underpin this transformative process. By addressing the global carbon challenge, the book emphasizes the urgent need to repurpose CO2 from a harmful pollutant into a valuable feedstock, paving the way for a sustainable future powered by methanol. The book covers a wide array of topics, including the historical evolution of methanol synthesis, sustainable feedstocks, and advanced catalytic methods. Readers will gain insights into reaction mechanisms, process technologies, and the role of artificial intelligence in optimizing production. Additionally, it examines the environmental and economic implications of methanol synthesis, providing a holistic view of its potential applications across various industries, from fuel blending to chemical manufacturing. Methanol Synthesis from CO2: towards achieving Carbon Neutrality is an essential resource for researchers, engineers, policymakers, and industry professionals in fields such as chemical engineering, environmental science, and renewable energy. By bridging fundamental research with practical applications, this book equips its audience with the knowledge to navigate the challenges and opportunities in the quest for a carbon-neutral world.
- Explores the technology of green/renewable methanol production from CO2
- Covers topics on carbon capture and utilization (CCU), advanced materials for methanal synthesis from CO2, reaction engineering and process optimization
- Addresses methanol applications, environmental and economic aspects, and challenges and perspectives
Researchers in academia and industry, (post/under)graduate students in catalysis, carbon neutrality, and renewable energy
1. A historical perspective of methanol synthesis
2. CO2 and H2: sustainable feedstocks
3. Reaction mechanisms in methanol synthesis: fundamental studies
4. Advanced heterogeneous catalysis
5. Advanced homogeneous catalysis
6. Advanced electrochemical catalysis
7. Advanced photochemical catalysis
8. Process technologies
9. Reaction engineering
10. Configuration of methanol synthesis and water gas shift reactions
11. Methanol applications and beyond
12. Artificial intelligence and machine learning applications
13. Existing green methanol synthesis: case study
14. Environmental and economic aspects
15. Challenges and opportunities
2. CO2 and H2: sustainable feedstocks
3. Reaction mechanisms in methanol synthesis: fundamental studies
4. Advanced heterogeneous catalysis
5. Advanced homogeneous catalysis
6. Advanced electrochemical catalysis
7. Advanced photochemical catalysis
8. Process technologies
9. Reaction engineering
10. Configuration of methanol synthesis and water gas shift reactions
11. Methanol applications and beyond
12. Artificial intelligence and machine learning applications
13. Existing green methanol synthesis: case study
14. Environmental and economic aspects
15. Challenges and opportunities
- Edition: 1
- Published: July 1, 2026
- Language: English
LM
Lebohang Macheli
Lebohang Macheli holds a PhD in Chemical Engineering from University of Cape Town, Cape Town, South Africa. He is Research scientist in Chemical Engineering with specialty in catalysis and energy engineering (air and water), and Teaching Assistant at University of Cape Town.
Affiliations and expertise
Research Scientist in Chemical Engineering and Teaching Assistant, University of Cape Town, South AfricaYY
Yao Yali
Professor Yao Yali holds a PhD in Chemical Engineering from University of the Witwatersrand, Johannesburg, South Africa. She is associate professor in the Institute for the Development of Energy for African Sustainability (IDEAS) at University of South Africa (UNISA), and co-leader of the research group on alternative fuel production via Fischer-Tropsch synthesis (XTL/FTS); The leader of the desulfurization research group. Her research work focuses on production of alternative fuels and purification of crude oil by means of ‘green’ technology. She spent my time on laboratory research and the design of contract projects in this field. Some of my research results have been applied successfully in industry projects.
Affiliations and expertise
Associate Professor, Institute for the Development of Energy for African Sustainability (IDEAS), University of South Africa (UNISA), South AfricaLJ
Linda L. Jewell
Linda L. Jewell holds a PhD in Chemical Engineering from University of the Witwatersrand, Johannesburg, South Africa. Her research interests include Fischer-Tropsch Catalysis, CO hydrogenation, Environmental catalysis, Open Distance e-Learning, Field of Specialisation, and Heterogeneous Catalysis.
Affiliations and expertise
University of the Witwatersrand, Johannesburg, South AfricaXL
Xinying Liu
Xinying Liu is a full professor and head of catalysis research group at the Institute for Development of Energy for African Sustainability, a research institute at the University of South Africa. He is an expert in the field of catalytic and nano inorganic materials for energy use, especially in Fischer Tropsch Synthesis (FTS), carbon dioxide utilization, biomass to energy systems and alternative liquid fuel processes. He also has over 15 years of industrial experiences in carbonaceous material indirect liquefaction process (XTL process), in pilot scale XTL facility design and operation, and small/medium scale XTL plant design, and to couple Fischer Tropsch process with other renewable process including concentrated solar power, and carbon dioxide capture.
Affiliations and expertise
Full Professor and Head of Catalysis Research Group, Institute for Development of Energy for African Sustainability, University of South Africa, South Africa