Heavy and Extra-heavy Oil Upgrading Technologies

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Language: English
Cover of the book Heavy and Extra-heavy Oil Upgrading Technologies

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176 p. · 15x22.8 cm · Paperback
Unconventional reservoirs of oil and gas represent a huge additional global source of fossil fuels. However, there is much still to be done to improve techniques for their processing to make recovery and refining of these particular energy sources more cost-effective. Brief but readable, Heavy and Extra-heavy Oil Upgrading Technologies provide readers with a strategy for future production (the up-stream) and upgrading (the down-stream). The book provides the reader with an understandable overview of the chemistry and engineering behind the latest developments and technologies in the industry as well as the various environmental regulations.Clear and rigorous, Heavy and Extra-heavy Oil Upgrading Technologies will prove tool for those scientists and engineers already engaged in fossil fuel science and technology as well as scientists, non-scientists, engineers, and non-engineers who wish to gain a general overview or update of the science and technology of unconventional fossil fuels in general and upgrading technologies in particular. The use of microorganisms and a number of physical methods, such as ultrasound, median microwave, cold plasma, electrokinetic and monocrystalline intermetallics, etc., will be discussed for the first time.
Part One – Primary Upgrading Technologies 1. Visbreaking 2. Delayed Coking 3. Fluid Coking and Flexicoking 4. Fluid Catalytic Cracking 5. Hydroconversion Part Two – Secondary Upgrading Technologies 6. Hydrocracking 7. Hydrotreatment for Bitumen-Derived Liquids Part Three – Enhanced Upgrading 8. Solvent Deasphalting and Supercritical Extraction 9. Gasification 10. Hydrovisbreaking and Fast Pyrolysis

Production engineers, Reservoir Engineers, Petroleum Process Engineers, Geologists and Research and development engineers

Dr. Speight is currently editor of the journal Petroleum Science and Technology (formerly Fuel Science and Technology International) and editor of the journal Energy

Sources. He is recognized as a world leader in the areas of fuels characterization and development. Dr. Speight is also Adjunct Professor of Chemical and Fuels Engineering at the University of Utah.

James Speight is also a Consultant, Author and Lecturer on energy and environmental issues. He has a B.Sc. degree in Chemistry and a Ph.D. in Organic Chemistry, both from University of Manchester. James has worked for various corporations and research facilities including Exxon, Alberta Research Council and the University of Manchester. With more than 45 years of experience, he has authored more than 400 publications--including over 50 books--reports and presentations, taught more than 70 courses, and is the Editor on many journals including the Founding Editor of Petroleum Science and Technology.

  • Overview of the chemistry, engineering, and technology of oil sands
  • Microorganisms and a number of physical methods such as ultrasound, median microwave, cold plasma, electrokinetic and monocrystalline intermetallics
  • Evolving and new environmental regulations regarding oil sands production processes