Conversion of Heavy Tar Sands with Asphaltene Chemical Structures via Catalytic Coking Using MoS2 Catalytic Material
Autor: | Brenda Torres, E. G. Hauptmann, D. Rendina, Russell R. Chianelli, P. J. Lucchesi |
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Rok vydání: | 2014 |
Předmět: |
chemistry.chemical_classification
Materials science Sulfide Hydrogen General Chemical Engineering Batch reactor Energy Engineering and Power Technology chemistry.chemical_element Coke Catalysis Fuel Technology Chemical engineering chemistry Organic chemistry Oil sands Asphaltene Refining (metallurgy) |
Zdroj: | Energy & Fuels. 28:1750-1755 |
ISSN: | 1520-5029 0887-0624 |
Popis: | A basic understanding of cataytic microreversibility described below has led to the further development of the concept of catalytic coking. In this concept, a catalyst, such as MoS2, which, under high hydrogen pressure and temperature, puts an extensive amount of hydrogen into petroleum molecules, whereas under the low pressure of hydrogen, the catalyst redistributes the hydrogen, thus rejecting asphaltenes and other heavy molecules as coke. This results in a clean liquid product as the heavy molecules are rejected. MoS2 is a layered transition-metal sulfide catalytic material well-known in the refining industry. Upgrading tests on samples of Cold Lake bitumen were carried out using transition-metal sulfide (TMS) nanoparticle catalysts in a special-purpose batch reactor. The tests covered a range of process temperatures and catalyst concentrations in order to explore the broad effects of catalyst performance. Typical reactor process conditions were 400–450 °C for periods of up to 1 h, with catalyst weight... |
Databáze: | OpenAIRE |
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