Intensification and Sustainability in Chemical Engineering

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Intensification and Sustainability in Chemical Engineering

Soares, Cíntia (EDT)/ Padoin, Natan (EDT)/ Kuhn, Simon (EDT)

ウェブストア価格 ¥33,792（本体¥30,720）
Elsevier - Health Sciences Division（2026/11発売）
外貨定価 US$ 150.00
ゴールデンウィークポイント2倍キャンペーン対象商品（～5/6）
ポイント 614pt

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製本 Paperback:紙装版/ペーパーバック版／ページ数 400 p.
言語 ENG
商品コード 9780443366017

Full Description

Intensification and Sustainability in Chemical Engineering serves as a comprehensive guide to chemical process engineering, and how to make processes as sustainable as possible. Across four sections, this book covers topics such as sustainability metrics, energy efficiency, renewable energy integration, green synthesis, process intensification, circular economy, electrification, biotechnology, digitalization, and nanotechnology - all of which crucial concepts in developing sustainable chemical processes as they address challenges, drive sustainability, and promote innovation within the field of chemical engineering. This book serves as an invaluable resource to students at postgraduate and late undergraduate level within chemical engineering, as well as other engineering disciplines involving sustainable chemical processes. This book would also be a useful reference for students, industrial researchers and process designers working in other industries, or decision/ policy makers looking to make their research design and practices more sustainable and reduce their environmental impact.

Section I: Foundations and Emerging Trends
1. Introduction: The Role of Intensification, Sustainability, and Innovation in the Chemical Engineering of the 21st Century
2. Global Challenges and Future Perspectives

Section II: Sustainable Processes and Technologies
3. Sustainability Metrics and Assessment in Chemical Engineering
4. Energy-Efficient Operation and Integration of Reaction and Downstream Processes
5. Renewable Energy Integration in Chemical Processes
6. Nuclear Energy in Sustainable Chemical Engineering
7. Renewable Feedstock Utilization in Chemical Processing
8. Green and Sustainable Chemical Synthesis
9. Net-Zero Chemical Processing 10. Process Intensification in the Chemical Industry
11. Circular Economy, Recycling and Waste Valorization
12. Photochemistry in Chemical Processing
13. Electrification of the Chemical Industry
14. The Role of Biotechnology in Sustainable Chemical Engineering

Section III: Advanced Manufacturing and Control
15. Continuous Manufacturing in the Chemical Processing
16. Digitalization, Automation, Artificial Intelligence, and Control in Process Intensification
17. Model-Based Process Intensification

Section IV: Innovations in Catalysis and Materials
18. Advanced Catalysts and Sustainable Catalytic Processes
19. Nanotechnology and Advanced Materials in Chemical Engineering