Economical Hydrogen Production with CO2 Capture in Oil Sands Industry
Balancing Hydrogen and Steam Production with CO2 Emission
(Sprache: Englisch)
As reserves of conventional crude oil are depleted, there is a growing need todevelop unconventional oils such as heavy oil and bitumen from oil sands. Interms of recoverable oil, Canadian oil sands are considered to be the secondlargest oil reserves in the...
Leider schon ausverkauft
versandkostenfrei
Buch
59.00 €
Produktdetails
Produktinformationen zu „Economical Hydrogen Production with CO2 Capture in Oil Sands Industry “
As reserves of conventional crude oil are depleted, there is a growing need to
develop unconventional oils such as heavy oil and bitumen from oil sands. In
terms of recoverable oil, Canadian oil sands are considered to be the second
largest oil reserves in the world. However, the upgrading of bitumen from oil
sands to synthetic crude oil (SCO) requires nearly ten times more hydrogen
(H2) than the conventional crude oils. The current H2 demand for oil sands
operations is met mostly by steam reforming of natural gas. With the future
expansion of oil sands operations, the demand of H2 for oil sand operations
is likely to quadruple in the next decade. As natural gas reforming involves
significant carbon dioxide (CO2) emissions, this sector is likely to contribute
largely to the increase of CO2 emissions. With the current concern in global
warming in which CO2 is a major concern, it is imperative to look at the production
of H2 in a CO2 constrained world. This book presents a process that
minimizes CO2 emission and captures CO2 at minimum energy penalty in
typical H2 plants. The results will be useful for hydrogen production plants
using steam methane reforming taking into account mitigating CO2
emissions.
Klappentext zu „Economical Hydrogen Production with CO2 Capture in Oil Sands Industry “
As reserves of conventional crude oil are depleted, there is a growing need to develop unconventional oils such as heavy oil and bitumen from oil sands. Interms of recoverable oil, Canadian oil sands are considered to be the second largest oil reserves in the world. However, the upgrading of bitumen from oil sands to synthetic crude oil (SCO) requires nearly ten times more hydrogen (H2) than the conventional crude oils. The current H2 demand for oil sands operations is met mostly by steam reforming of natural gas. With the future expansion of oil sands operations, the demand of H2 for oil sand operations is likely to quadruple in the next decade. As natural gas reforming involves significant carbon dioxide (CO2) emissions, this sector is likely to contribute largely to the increase of CO2 emissions. With the current concern in global warming in which CO2 is a major concern, it is imperative to look at the production of H2 in a CO2 constrained world. This book presents a process that minimizes CO2 emission and captures CO2 at minimum energy penalty in typical H2 plants. The results will be useful for hydrogen production plants using steam methane reforming taking into account mitigating CO2 emissions.
Autoren-Porträt von Cynthia Tarun
Cynthia B. Tarun, MASc ChE:Obtained her BS from the Mapua Institute ofTechnology (Philippines) and MSc from theUniversity of the Philippines-Diliman. She furtherpursued another MASc at the University ofWaterloo in Canada specializing on processsystems engineering. She now works as a processengineer at COLT Worley Parsons, Sarnia, Ontario,Canada.
Bibliographische Angaben
- Autor: Cynthia Tarun
- 2008, 140 Seiten, Maße: 17 x 24 cm, Kartoniert (TB), Englisch
- Verlag: VDM Verlag Dr. Müller
- ISBN-10: 3836454718
- ISBN-13: 9783836454711
Sprache:
Englisch
Kommentar zu "Economical Hydrogen Production with CO2 Capture in Oil Sands Industry"
0 Gebrauchte Artikel zu „Economical Hydrogen Production with CO2 Capture in Oil Sands Industry“
Zustand | Preis | Porto | Zahlung | Verkäufer | Rating |
---|
Schreiben Sie einen Kommentar zu "Economical Hydrogen Production with CO2 Capture in Oil Sands Industry".
Kommentar verfassen