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Tables of Contents for Catalysis
Chapter/Section Title
Page #
Page Count
Hydrotreating Catalysis
1
270
1. Introduction
1
3
2. Technological Aspects
4
25
A. Crude and Feed Characteristics
5
6
B. Hydrotreating Reactions
11
1
C. Hydrotreating in Refining
12
6
D. Hydrotreating Processes
18
4
E. Catalyst Selection
22
2
F. Activation, Deactivation and Regeneration
24
5
3. Catalyst Characterization
29
82
A. Structural Models
29
6
1. Monolayer Model
29
1
2. Intercalation Model
30
1
3. Contact Synergy Model
31
1
4. Co-Mo-S Model
31
2
5. Other Models
33
2
B. Characterization Studies
35
76
1. Structure of Alumina-supported Mo and W Catalysts
36
29
a. Unpromoted Catalysts
36
17
i. Calcined Catalysts
36
2
ii. Sulfided State
38
15
b. Promoted Catalysts
53
12
i. Calcined State
53
2
ii. Sulfided State
55
10
2. Other Supports
65
4
3. Sulfiding Reactions
69
4
4. Effect of Preparation and Activation
73
15
a. Impregnation Procedure
73
3
b. Metal Loading
76
3
c. Calcination Temperature
79
1
d. Activation
80
3
e. Additives
83
5
5. Dispersion and Morphology
88
9
6. Aged Catalysts
97
5
7. Unsupported Catalysts
102
5
8. New Types of Hydrotreating Catalysts
107
3
9. Model Systems
110
1
4. Kinetics and Mechanisms of Model Compound Reactions
111
44
A. Hydrodesulfurization (HDS)
114
14
1. Reactivities
114
2
2. Reaction Pathways
116
2
3. Kinetics
118
1
4. Poisoning/Coke
118
2
5. Adsorption/Reaction Sites
120
1
6. Mechanisms
121
3
7. Implications from Organometallic and Computational Chemistry
124
4
B. Hydrogenation (HYD)
128
5
1. Reactivities
128
1
2. Reaction Pathways and Kinetics
129
2
3. Adsorption/Reaction Sites
131
2
C. Hydrodenitrogenation (HDN)
133
8
1. Reactivities
133
1
2. Reaction Pathways and Kinetics
134
3
3. Promotion/Poisoning/Coke
137
1
4. Adsorption/Reaction Sites
138
1
5. Mechanisms
139
2
D. Hydrodeoxygenation (HDO)
141
3
1. Reactivities
141
1
2. Reaction Pathways and Kinetics
141
2
3. Poisons/Coke
143
1
4. Adsorption/Reaction Sites
144
1
E. Cracking (CKG)/Hydrocracking
144
1
F. Hydrodemetallation (HDM)
145
2
G. Mixed Feeds
147
3
1. Reactivities
148
1
2. Kinetics
148
2
H. Role of Hydrogen
150
2
I. On Active Sites
152
3
J. Summary
155
1
5. Structure-Activity Correlations
155
62
A. Unpromoted Mo and W Catalysts
156
6
B. Promoted Mo and W Catalysts
162
21
1. Models for Promotion
162
3
2. Mossbauer Spectroscopy Studies
165
3
3. Chemisorption of Probe Molecules and Infrared Spectroscopy Studies
168
7
a. O(2)
169
2
b. NO
171
1
c. CO
172
2
d. H(2), H(2)S and basic molecules
174
1
4. EXAFS Studies
175
1
5. XPS, ISS and Microscopy Studies
176
3
6. Magnetic Susceptibility, NMR, and ESR Studies
179
2
7. TPR
181
1
8. Other Studies
182
1
C. Correlations with Properties of Calcined Catalysts
183
3
D. Preparation Parameters
186
5
1. Metal Loading
188
1
2. Impregnation procedure
189
1
3. Calcination temperature
190
1
E. Additive Effects
191
2
F. Periodic Trends in Promotion
193
4
G. Activation Procedures
197
2
H. Deactivation Phenomena
199
4
I. Unsupported Catalysts and Support Effects
203
5
J. Transition Metal Sulfides: Periodic Trends
208
7
K. Unconventional Catalysts and Model Systems
215
2
6. Active Sites and Reaction Mechanisms
217
14
A. Unpromoted Mo and W Catalysts
218
6
B. Periodic Trends
224
2
C. Promoted Mo and W Catalysts
226
5
7. Concluding Remarks
231
1
8. References
232
39
References Author Index
271
32
Subject Index
303
8
Author Index Volumes 1 - 11
311