Hydroprocessing of Heavy Oils and ResiduaJorge Ancheyta, James G. Speight Many oil refineries employ hydroprocessing for removing sulfur and other impurities from petroleum feedstocks. Capable of handling heavier feedstocks than other refining techniques, hydroprocessing enables refineries to produce higher quality products from unconventional- and formerly wasted- sources. Hydroprocessing of Heavy Oils and Residua |
From inside the book
Results 1-5 of 42
Page
... Adsorption Technology: A Step-by-Step Approach to Process Evaluation and Application, edited by Frank L. Slejko Deactivation and Poisoning of Catalysts, edited by Jacques Oudar and Henry Wise Catalysis and Surface Science: Developments ...
... Adsorption Technology: A Step-by-Step Approach to Process Evaluation and Application, edited by Frank L. Slejko Deactivation and Poisoning of Catalysts, edited by Jacques Oudar and Henry Wise Catalysis and Surface Science: Developments ...
Page 26
... adsorption (ASTM D-2007). 4. Determination of hydrocarbon types in liquid petroleum products by a fluorescent indicator adsorption test (ASTM D-1319). Gel permeation chromatography is an attractive technique for the determination of the ...
... adsorption (ASTM D-2007). 4. Determination of hydrocarbon types in liquid petroleum products by a fluorescent indicator adsorption test (ASTM D-1319). Gel permeation chromatography is an attractive technique for the determination of the ...
Page 30
... adsorption chromatography essentially commences with the preparation of a porous bed of finely divided solid, the ... (adsorbed) to a greater or lesser extent depending on the chemical nature of the component. Thus, those molecules that ...
... adsorption chromatography essentially commences with the preparation of a porous bed of finely divided solid, the ... (adsorbed) to a greater or lesser extent depending on the chemical nature of the component. Thus, those molecules that ...
Page 41
You have reached your viewing limit for this book.
You have reached your viewing limit for this book.
Page 75
You have reached your viewing limit for this book.
You have reached your viewing limit for this book.
Contents
1 | |
15 | |
35 | |
Chapter 4 Thermodynamics of Hydroprocessing Reactions | 51 |
Chapter 5 Reactors for Hydroprocessing | 71 |
Chapter 6 Characteristics of Heavy Oil Hydroprocessing Catalysts | 121 |
Chapter 7 Maya Heavy Crude Oil Hydroprocessing Catalysts | 191 |
Chapter 8 Effect of Feedstock Composition on the Performance of Hydroconversion Catalysts | 239 |
Chapter 9 Hydroprocesses | 259 |
Chapter 10 Commercial Hydrotreating and Hydrocracking | 281 |
Chapter 11 Hydrogen Production | 313 |
Index | 339 |
Back cover | 347 |
Other editions - View all
Hydroprocessing of Heavy Oils and Residua Jorge Ancheyta Juárez,James G. Speight No preview available - 2020 |
Common terms and phrases
acid activity adsorption alumina Ancheyta API gravity Appl aromatic asphaltene molecules asphaltenes ASTM bitumen carbon Catal catalyst catalyst bed catalyst deactivation catalyst particles characterization Chem chemical coke formation composition conversion cracking desulfurization diesel ebullated-bed effect Energy Fuels equilibrium constants feedstock Figure fixed-bed fractions fresh catalyst Furimsky gas oil heavy crude oil heavy feeds heavy feedstocks heavy oil hydrocarbon hydrocracking hydrodemetallization hydrodesulfurization hydrogen sulfide hydroprocessing catalysts hydroprocessing of heavy hydrotreaters hydrotreating catalysts increase kinetics liquid Maity Massoth Maya crude method middle distillates molecular weight naphtha nickel NiMo nitrogen oils and residua operation oxides partial pressure permission Petrol petroleum phase pore diameter pore volume quench Rana reaction reactor recycle gas refinery refining removal residuum Speight spent catalyst steam reforming sulfur surface area synthesis gas Technol Technology temperature textural properties thermal thermodynamic Today units upgrading vanadium viscosity zeolites
Popular passages
Page 7 - The several rock types that contain an extremely viscous hydrocarbon which is not recoverable in its natural state by conventional oil well production methods including currently used enhanced recovery techniques.