Product details:
| ISBN13: | 9780443219900 |
| ISBN10: | 0443219907 |
| Binding: | Paperback |
| No. of pages: | 400 pages |
| Size: | 228x152 mm |
| Language: | English |
| 700 |
Category:
Green Chemistry
A Path to Sustainable Development
Publisher: Elsevier
Date of Publication: 1 March 2025
Normal price:
Publisher's listprice:
EUR 180.00
EUR 180.00
Your price:
70 421 (67 068 HUF + 5% VAT )
discount is: 10% (approx 7 825 HUF off)
The discount is only available for 'Alert of Favourite Topics' newsletter recipients.
Click here to subscribe.
Click here to subscribe.
Availability:
Not yet published.
Long description:
Green Chemistry: A Path to Sustainable Development provides updated information and knowledge on green chemistry, analyzes greener solutions for environmental sustainability, and includes principles and practices, metrics, green chemical technologies, and real-world applications. Chapters explore interdisciplinary approaches to green chemistry, as well as value added through by-products, conversion of waste to value added products, remodeling from a conventional approach to a greener approach, and the challenges, opportunities, and future scope of green chemistry. Finally, this book discusses green methodologies, processes, and new chemical development.
Table of Contents:
I. Introduction
1.1 History of Green Chemistry: Remodeling from conventional approach to greener approach
1.2 Selection of solvent and auxiliary
1.3 Eutectic solvents in mining industry
1.4 Green catalyst and reagents
II. Greener approaches and methodologies for sustainability
2.1 Microwave irradiation (MWI) techniques
2.2 Ultrasonication techniques
2.3 Photo-catalysis techniques
2.4 Grinding and milling methods (mechanochemical)
2.5 Supercritical fluid extraction techniques
2.6 Biological and enzymatic approach
III. Interdisciplinary Approach of Green Chemistry
3.1 Nanoscience and nanotechnology
3.2 Sustainable energy resources
3.3 Green structure and buildings
3.4 Petroleum and oil industries
3.5 Green approach for transportation
IV By-product Value addition
4.1 Zero waste technology
4.2 CO2 Sequestration/conversion of CO2 to methanol
4.3 Conversion of waste to value added product
4.4 Green Solution for environmental sustainability
V Green chemistry: challenges, opportunities, and Future Perspective of green chemistry
5.1 Major challenges
5.2 Opportunities in different sectors
5.3 Case studies & Techno-economic analyses
5.4 Future possibility & Life cycle analysis (LCA)
1.1 History of Green Chemistry: Remodeling from conventional approach to greener approach
1.2 Selection of solvent and auxiliary
1.3 Eutectic solvents in mining industry
1.4 Green catalyst and reagents
II. Greener approaches and methodologies for sustainability
2.1 Microwave irradiation (MWI) techniques
2.2 Ultrasonication techniques
2.3 Photo-catalysis techniques
2.4 Grinding and milling methods (mechanochemical)
2.5 Supercritical fluid extraction techniques
2.6 Biological and enzymatic approach
III. Interdisciplinary Approach of Green Chemistry
3.1 Nanoscience and nanotechnology
3.2 Sustainable energy resources
3.3 Green structure and buildings
3.4 Petroleum and oil industries
3.5 Green approach for transportation
IV By-product Value addition
4.1 Zero waste technology
4.2 CO2 Sequestration/conversion of CO2 to methanol
4.3 Conversion of waste to value added product
4.4 Green Solution for environmental sustainability
V Green chemistry: challenges, opportunities, and Future Perspective of green chemistry
5.1 Major challenges
5.2 Opportunities in different sectors
5.3 Case studies & Techno-economic analyses
5.4 Future possibility & Life cycle analysis (LCA)