《催化原理導論(雙語教材)Introduction to Catalysis》是2006年化學工業出版社出版的圖書,作者是閻子峰。
基本介紹
- 書名:催化原理導論(雙語教材)Introduction to Catalysis
- 作者:閻子峰
- ISBN:9787502576837
- 頁數:400
- 定價:48.0
- 出版社:化學工業出版社
- 出版時間:2006年1月1日
- 裝幀:平裝
- 開本:16
內容簡介,目錄,
內容簡介
本書是為貫徹教育部關於“本科教育要創造條件使用英語等外語進行公共課和專業課教學……”的檔案精神,提高學生專業英語水平、對國外技術資料的閱讀套用能力而編寫的雙語教材。本書主要介紹了催化基本概念、基礎理論,工業催化劑的結構及特性以及在各工業領域的套用,並對近年出現的催化新概念、新理論、新方法及新的催化套用領域做了大量闡述。 本書可作為高等院校石油、化工、化學、材料、生物及環境等專業本科生、研究生開設催化課程的教材,也可供從事與催化相關工作的科研、生產及教學人員作為專業參考書。同時還可作為高校相關專業本科生、研究生、科研人員等專業英語教材或參考書使用。
目錄
Content
Chapter 1 Catalysis: History, Features and Concepts
1.1 Introduction
1.2 History of catalysis
1.3 Concept of catalysis
1.4 Features of catalysis
1.5 Types of catalysts
1.6 Types of catalysis in transition states
1.7 Composition of heterogeneous catalysts
1.8 Physical properties of heterogeneous catalysts
1.9 Chemical properties of heterogeneous catalysts
1.10 Summary of Industrial Catalytic Processes
References
Chapter 2 Homogeneous Catalysis
2.1 Introduction
2.2 Some important ligand features
2.3 Lewis base ligands
2.4 Hydrogenation catalysis
2.5 Industrial future of homogeneous catalysis
2.6 Hydroformylation catalysis
2.7 Monsanto acetic acid & related processes
References
Chapter 3 Zeolites and FCC Process
3.1 Microporous zeolites
3.2 Mesoporous molecular sieves
3.3 The use of zeolites in catalysis today
3.4 Fluid catalytic cracking(FCC)process
3.5 Catalytic cracking mechanism
3.6 Catalyst decay
3.7 Catalysis science and technology for cleaner transportation fuels
References
Chapter 4 Hydrogenation Processes
4.1 Introduction
4.2 Hydrogenation
4.3 Hydrocracking
4.4 Dehydrogenation
References
Chapter 5 Catalytic Reforming of Naphtha
5.1 Introduction
5.2 Reforming reactions
5.3 Reforming mechanism
5.4 Reforming catalysts
5.5 Selectivity of reforming catalyst
5.6 Deactivation of reforming catalysts
References
Chapter 6 Production and Uses of Synthesis Gas
6.1 Introduction
6.2 Manufacture of synthesis gas
6.3 Synthesis gas as a chemical feedstock
6.4 Methanol synthesis
6.5 FischerTropsch and related syntheses
6.6 Methanol to gasoline(MTG)
6.7 Homologation of methanol
6.8 Ammonia and related products
References
Chapter 7 Catalyst Deactivation
7.1 Introduction
7.2 Nature of catalyst deactivation and remedial actions
7.3 Effects of deactivation
7.4 Cause of deactivation
References
Chapter 8 Catalytic Polymerization
8.1 Introduction
8.2 Monomers, polymers and copolymers
8.3 Classification of polymers
8.4 Polymerization reactions
8.5 Polymerization with coordination compounds
8.6 ZieglerNatta polymerization catalysis
References
Chapter 9 Enzyme Catalysis
9.1 Introduction
9.2 Nature of enzyme catalysis
9.3 Enzyme in industry
9.4 Feature of enzyme catalysis
9.5 Enzymatic activation of alkanes
References
Chapter 10 Experimental Techniques in Catalysis
10.1 Introduction
10.2 Preparation of heterogeneous catalysts
10.3 Preparation of homogeneous catalysts
10.4 Evaluate catalyst performance in the laboratory
10.5 Characterization of homogeneous catalysts
10.6 Characterization of heterogeneous catalysts
10.7 Insitu methods in catalysis
References
Chapter 1 Catalysis: History, Features and Concepts
1.1 Introduction
1.2 History of catalysis
1.3 Concept of catalysis
1.4 Features of catalysis
1.5 Types of catalysts
1.6 Types of catalysis in transition states
1.7 Composition of heterogeneous catalysts
1.8 Physical properties of heterogeneous catalysts
1.9 Chemical properties of heterogeneous catalysts
1.10 Summary of Industrial Catalytic Processes
References
Chapter 2 Homogeneous Catalysis
2.1 Introduction
2.2 Some important ligand features
2.3 Lewis base ligands
2.4 Hydrogenation catalysis
2.5 Industrial future of homogeneous catalysis
2.6 Hydroformylation catalysis
2.7 Monsanto acetic acid & related processes
References
Chapter 3 Zeolites and FCC Process
3.1 Microporous zeolites
3.2 Mesoporous molecular sieves
3.3 The use of zeolites in catalysis today
3.4 Fluid catalytic cracking(FCC)process
3.5 Catalytic cracking mechanism
3.6 Catalyst decay
3.7 Catalysis science and technology for cleaner transportation fuels
References
Chapter 4 Hydrogenation Processes
4.1 Introduction
4.2 Hydrogenation
4.3 Hydrocracking
4.4 Dehydrogenation
References
Chapter 5 Catalytic Reforming of Naphtha
5.1 Introduction
5.2 Reforming reactions
5.3 Reforming mechanism
5.4 Reforming catalysts
5.5 Selectivity of reforming catalyst
5.6 Deactivation of reforming catalysts
References
Chapter 6 Production and Uses of Synthesis Gas
6.1 Introduction
6.2 Manufacture of synthesis gas
6.3 Synthesis gas as a chemical feedstock
6.4 Methanol synthesis
6.5 FischerTropsch and related syntheses
6.6 Methanol to gasoline(MTG)
6.7 Homologation of methanol
6.8 Ammonia and related products
References
Chapter 7 Catalyst Deactivation
7.1 Introduction
7.2 Nature of catalyst deactivation and remedial actions
7.3 Effects of deactivation
7.4 Cause of deactivation
References
Chapter 8 Catalytic Polymerization
8.1 Introduction
8.2 Monomers, polymers and copolymers
8.3 Classification of polymers
8.4 Polymerization reactions
8.5 Polymerization with coordination compounds
8.6 ZieglerNatta polymerization catalysis
References
Chapter 9 Enzyme Catalysis
9.1 Introduction
9.2 Nature of enzyme catalysis
9.3 Enzyme in industry
9.4 Feature of enzyme catalysis
9.5 Enzymatic activation of alkanes
References
Chapter 10 Experimental Techniques in Catalysis
10.1 Introduction
10.2 Preparation of heterogeneous catalysts
10.3 Preparation of homogeneous catalysts
10.4 Evaluate catalyst performance in the laboratory
10.5 Characterization of homogeneous catalysts
10.6 Characterization of heterogeneous catalysts
10.7 Insitu methods in catalysis
References
