Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide

A. H. Al-Marzouqi; A. Y. Zekri; B. Jobe; A. Dowaidar

Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide

A. H. Al-Marzouqi, A. Y. Zekri, B. Jobe, A. Dowaidar

Department of Chemical & Petroleum

Research output: Contribution to conference › Paper › peer-review

Abstract

Carbon dioxide at elevated pressure and temperature is a powerful solvent capable of extracting hydrocarbons from rocks, soil and mud slurries, which are by-products of large numbers of oil industries. The objective of this study was to investigate the effects of water content and grain size and type on the extraction capacity of CO2 (at 300 bar and 120°C) and on the composition of extracted hydrocarbons. The results of this study indicate that CO2 at 300 bar and 120°C is an effective solvent, which leads to high oil recoveries, except for reservoirs with high water contents (≥ 20%). The results also show that the extraction efficiency of CO2 from soil is higher than that from limestone particles of the same size and distribution, indicating that Bu Hasa oil holds more strongly to the limestone particles than to the soil particles. Moreover, the compositional analysis show that CO2 at 300 bar and 120°C is capable of extracting hydrocarbons up to C31 including gasoline and diesel range hydrocarbons.

Original language	English
Pages	1007-1011
Number of pages	5
Publication status	Published - Jan 1 2006
Event	Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas - Vienna, Austria Duration: Jun 12 2006 → Jun 15 2006

Other

Other	Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas
Country/Territory	Austria
City	Vienna
Period	6/12/06 → 6/15/06

ASJC Scopus subject areas

Engineering(all)
Energy(all)

Cite this

Al-Marzouqi, A. H., Zekri, A. Y., Jobe, B., & Dowaidar, A. (2006). Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide. 1007-1011. Paper presented at Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas, Vienna, Austria.

Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide. / Al-Marzouqi, A. H.; Zekri, A. Y.; Jobe, B. et al.
2006. 1007-1011 Paper presented at Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas, Vienna, Austria.

Research output: Contribution to conference › Paper › peer-review

Al-Marzouqi, AH , Zekri, AY, Jobe, B & Dowaidar, A 2006, 'Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide', Paper presented at Society of Petroleum Engineers, 68th European Association of Geoscientists and Engineers Conference and Exhibition, incorporating SPE EUROPEC 2006, EAGE 2006: Opportunities in Mature Areas, Vienna, Austria, 6/12/06 - 6/15/06 pp. 1007-1011.

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T1 - Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide

AU - Al-Marzouqi, A. H.

AU - Zekri, A. Y.

AU - Jobe, B.

AU - Dowaidar, A.

PY - 2006/1/1

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N2 - Carbon dioxide at elevated pressure and temperature is a powerful solvent capable of extracting hydrocarbons from rocks, soil and mud slurries, which are by-products of large numbers of oil industries. The objective of this study was to investigate the effects of water content and grain size and type on the extraction capacity of CO2 (at 300 bar and 120°C) and on the composition of extracted hydrocarbons. The results of this study indicate that CO2 at 300 bar and 120°C is an effective solvent, which leads to high oil recoveries, except for reservoirs with high water contents (≥ 20%). The results also show that the extraction efficiency of CO2 from soil is higher than that from limestone particles of the same size and distribution, indicating that Bu Hasa oil holds more strongly to the limestone particles than to the soil particles. Moreover, the compositional analysis show that CO2 at 300 bar and 120°C is capable of extracting hydrocarbons up to C31 including gasoline and diesel range hydrocarbons.

AB - Carbon dioxide at elevated pressure and temperature is a powerful solvent capable of extracting hydrocarbons from rocks, soil and mud slurries, which are by-products of large numbers of oil industries. The objective of this study was to investigate the effects of water content and grain size and type on the extraction capacity of CO2 (at 300 bar and 120°C) and on the composition of extracted hydrocarbons. The results of this study indicate that CO2 at 300 bar and 120°C is an effective solvent, which leads to high oil recoveries, except for reservoirs with high water contents (≥ 20%). The results also show that the extraction efficiency of CO2 from soil is higher than that from limestone particles of the same size and distribution, indicating that Bu Hasa oil holds more strongly to the limestone particles than to the soil particles. Moreover, the compositional analysis show that CO2 at 300 bar and 120°C is capable of extracting hydrocarbons up to C31 including gasoline and diesel range hydrocarbons.

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Y2 - 12 June 2006 through 15 June 2006

ER -

Extraction of hydrocarbons from soil and rocks using high pressure carbon dioxide

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ASJC Scopus subject areas

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