Process Systems Engineering Tools for Industrial Decarbonization
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Product details:
- Publisher Elsevier Science
- Date of Publication 1 August 2026
- ISBN 9780443217210
- Binding Paperback
- No. of pages250 pages
- Size 229x152 mm
- Weight 450 g
- Language English 700
Categories
Long description:
Process Systems Engineering Tools for Industrial Decarbonization explores the latest mathematical methods driving large-scale adoption of technologies aimed at reducing carbon emissions in industrial systems. By examining systematic strategies for planning, decision-making, and designing low-carbon industrial processes, the book offers readers-both experts and newcomers-a comprehensive understanding of how recent advances in process engineering can support a sustainable future. Special emphasis is placed on the integration and optimization of cutting-edge technologies such as Carbon Capture, Utilization, and Storage (CCUS), Negative Emission Technologies (NETs), and other innovative decarbonization solutions as they mature and become viable at scale.
Beyond technical frameworks, the book addresses the urgent need to manage rising atmospheric CO? levels, which now average 420 ppm-well above safe thresholds. It highlights the importance of using decision-making tools to efficiently deploy and systematize available technologies, ensuring the industrial sector contributes effectively to climate mitigation.
Table of Contents:
Section 1: Carbon Capture, Utilisation & Storage (CCUS)
1. A Universal Platform for the Development and Evaluation of Various CO? Conversion Processes
2. Design of Carbon Capture and Storage Network - A Case Study in Malaysia
3. Evaluation of CO? Storage with Process System Engineering Methods - A Case Study in China
4. Selection of Geological Sinks for CO? Utilization and Storage under Neutrosophic Environment
5. Bilevel Optimization of CO? Networks with P-graph
Section 2: Negative Emission Technologies
6. Multi-footprint Optimization of Integrated Negative Emissions Technology Portfolios
7. Criticality Analysis in Negative Emissions Technologies Network
8. Development of a Rough Set-Based Model for Predicting the Change in Biochar Properties after Field Application
Section 3: Carbon Footprint Reduction
9. Carbon Footprint Reduction for an Infant Milk Production Process
10. Graphical Approach to Multi-Scope Carbon Footprint Reduction
11. Systematic Graphical Framework for Multiple Footprints Reduction for a Multi-Product Plant
Section 4: Energy Efficiency
12. Heat Exchange Network Design and Optimisation
13. Design and Optimization Approach for Sustainable Rankine Cycle Systems
Concluding
14. Research Roadmap for Computing Solutions in Carbon Management
