Sustainable Catalytic Processes
Coordonnateurs : Saha Basudeb, Fan Maohong, Wang Jianji
The development of catalysts is the most sophisticated art in chemical sciences. It can be read like a story book when the critical scientific contents are presented in a chronological manner with short and simple sentences. This book will meets these criteria. To address the sustainability issues of existing chemical manufacturing processes or producing new chemicals, researchers are developing alternate catalysts to eliminate toxic chemicals use and by-products formation. Sustainable Catalytic Processes presents critical discussions of the progress of such catalytic development. This book of contemporary research results in sustainable catalysis area will benefit scientists in both industries and academia, and students to learn recent catalysts/process development.
Chapter 1: Role of Meso/micro-molecular sieve composite materials on various catalytic transformation Chapter 2. Functionalized mesoporous materials as sustainable catalyst in liquid phase catalytic transformations Chapter 3. Sustainable catalysis systems based on ionic liquids Chapter 4. Catalysts for production of sustainable chemicals and fuels from biomass Chapter 5. Lignin Deconstruction: Chemical and Biological Approaches Chapter 6. Catalytic coal gasification Chapter 7. Catalysis for environmental remediation
Chemical Engineers, Chemists, Physical Chemists,. Graduate and Post graduate students in Catalysis and Reaction Engineering
- Reports the most recent developments in catalysis with a focus on environmentally friendly commercial processes, such as waste water treatment, alternate energy, etc
- Bridges the theory, necessary for the development of environmentally friendly processes, and their implementation through pilot plant and large scale
- Contains mainly laboratory scale data and encourages industrial scientists to test these processes on a pilot scale
- Includes work examples featuring the development of the new catalysts/processes using bio-renewable feedstock satisfactorily addressing environmental concerns
- Includes one chapter demonstrating real industrial examples motivating the industrial and academic researchers to pursue similar research
Date de parution : 06-2015
Ouvrage de 218 p.
19x23.3 cm
Thème de Sustainable Catalytic Processes :
Mots-clés :
ߖO�4 ether bond cleavage; Alkali earth metals catalyst; Alkali metals catalyst; Aluminosilicates; Biofuel; Biogenic impurities; Biomass conversion; Biomass; Catalyst recovery; Catalysts; Catalytic processing; CO2 transformation; Coal catalytic gasification; Deconstruction; DMF; Drop-in biofuels; Electrodialysis; EMF; Enzymatic degradation; Enzymatic reaction; Fermentation; HMF; Hydrogenolysis; Hydroisomerization; Integrated process; Ionic liquids; Lignin; Lignocellulose; MCM-41; Meso/microcomposite; Petrochemical; Platform molecules; Renewable chemicals; SAPO-n; Silicoaluminophosphate; Sustainable catalysis; Transition metal catalysis; Transitional metals catalyst