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This book provides a comprehensive treatment of carbon emissions pinch analysis (CEPA), covering the fundamentals as well as advanced variants based on mathematical programming.
This book provides a comprehensive treatment of carbon emissions pinch analysis (CEPA), covering the fundamentals as well as advanced variants based on mathematical programming.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 156
- Erscheinungstermin: 7. April 2020
- Englisch
- Abmessung: 239mm x 160mm x 15mm
- Gewicht: 318g
- ISBN-13: 9780815390923
- ISBN-10: 0815390920
- Artikelnr.: 59412101
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 156
- Erscheinungstermin: 7. April 2020
- Englisch
- Abmessung: 239mm x 160mm x 15mm
- Gewicht: 318g
- ISBN-13: 9780815390923
- ISBN-10: 0815390920
- Artikelnr.: 59412101
Professor Dominic Foo is a Professor of Process Design and Integration at the University of Nottingham Malaysia. He is a Fellow of the Institution of Chemical Engineers, a Fellow of the Academy of Science Malaysia, a Chartered Engineer with the UK Engineering Council, a Professional Engineer with the Board of Engineer Malaysia. He works on process integration for resource conservation and CO2 reduction, with more than 400 published works. Professor Foo is the co-Editor-in-Chief for Process Integration and Optimization for Sustainability, Subject Editor for Process Safety & Environmental Protection, and editorial board members for several other renowned journals. Raymond R. Tan is Professor of Chemical Engineering and University Fellow at De La Salle University, Philippines. He is also a member of the National Academy of Science and Technology of the Philippines. His main areas of research are process systems engineering and process integration, where he has over 300 published works. Prof. Tan received his BS and MS degrees in chemical engineering and PhD in mechanical engineering from De La Salle University. He is also co-editor-in-chief of Process Integration and Optimization for Sustainability, subject editor of Sustainable Production and Consumption, and an editorial board member of Clean Technologies and Environmental Policy.
Section A. Basic Methodology for Carbon Management Networks. 1. Global
Energy and Climate Landscape. 2. Graphical Targeting Techniques for Carbon
Emission Pinch analysis (CEPA). 3. Algebraic and Automated Targeting
Techniques for Carbon Emission Pinch Analysis (CEPA). 4. Pinch Analysis
Techniques for Carbon Capture and Storage (CCS). 5. Superstructure-Based
Mathematical Programming. Section B. Applications of Carbon Management
Networks. 6. Applications of Carbon Emission Pinch Analysis (CEPA) for
China. 7. Applications of Carbon Emission Pinch Analysis (CEPA) for Indian
Electricity Sector. 8. Multi-Period Power Generation Planning for the
United Arab Emirates (UAE). 9. Carbon Emission Reduction Targeting for
Bioenergy Supply Chain in Malaysia. 10. Carbon and Resource Constrained
Energy Sector Planning for Taiwan. Index.
Energy and Climate Landscape. 2. Graphical Targeting Techniques for Carbon
Emission Pinch analysis (CEPA). 3. Algebraic and Automated Targeting
Techniques for Carbon Emission Pinch Analysis (CEPA). 4. Pinch Analysis
Techniques for Carbon Capture and Storage (CCS). 5. Superstructure-Based
Mathematical Programming. Section B. Applications of Carbon Management
Networks. 6. Applications of Carbon Emission Pinch Analysis (CEPA) for
China. 7. Applications of Carbon Emission Pinch Analysis (CEPA) for Indian
Electricity Sector. 8. Multi-Period Power Generation Planning for the
United Arab Emirates (UAE). 9. Carbon Emission Reduction Targeting for
Bioenergy Supply Chain in Malaysia. 10. Carbon and Resource Constrained
Energy Sector Planning for Taiwan. Index.
Section A. Basic Methodology for Carbon Management Networks. 1. Global
Energy and Climate Landscape. 2. Graphical Targeting Techniques for Carbon
Emission Pinch analysis (CEPA). 3. Algebraic and Automated Targeting
Techniques for Carbon Emission Pinch Analysis (CEPA). 4. Pinch Analysis
Techniques for Carbon Capture and Storage (CCS). 5. Superstructure-Based
Mathematical Programming. Section B. Applications of Carbon Management
Networks. 6. Applications of Carbon Emission Pinch Analysis (CEPA) for
China. 7. Applications of Carbon Emission Pinch Analysis (CEPA) for Indian
Electricity Sector. 8. Multi-Period Power Generation Planning for the
United Arab Emirates (UAE). 9. Carbon Emission Reduction Targeting for
Bioenergy Supply Chain in Malaysia. 10. Carbon and Resource Constrained
Energy Sector Planning for Taiwan. Index.
Energy and Climate Landscape. 2. Graphical Targeting Techniques for Carbon
Emission Pinch analysis (CEPA). 3. Algebraic and Automated Targeting
Techniques for Carbon Emission Pinch Analysis (CEPA). 4. Pinch Analysis
Techniques for Carbon Capture and Storage (CCS). 5. Superstructure-Based
Mathematical Programming. Section B. Applications of Carbon Management
Networks. 6. Applications of Carbon Emission Pinch Analysis (CEPA) for
China. 7. Applications of Carbon Emission Pinch Analysis (CEPA) for Indian
Electricity Sector. 8. Multi-Period Power Generation Planning for the
United Arab Emirates (UAE). 9. Carbon Emission Reduction Targeting for
Bioenergy Supply Chain in Malaysia. 10. Carbon and Resource Constrained
Energy Sector Planning for Taiwan. Index.