Experimental study on harmless disposal of waste oil based mud using supercritical carbon dioxide extraction

•An efficient and eco-friendly method of harmless disposal of OBM waste method was concerned.•Indoor experiment and instrumental analysis are carried out to investigate the extraction efficiency.•A mathematical modeling of extraction process based on differential mass balances is established. Oil ba...

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Bibliographic Details
Published in:Fuel (Guildford) 2019-09, Vol.252, p.722-729
Main Authors: Ma, Bo, Wang, Ruihe, Ni, Hongjian, Wang, Kaize
Format: Article
Language:English
Subjects:
Alkanes
Carbon dioxide
Contaminants
Discharge
Drilling
Drilling muds
Fluorescence
Gas chromatography
Harmless disposal
Heavy metals
Hydrocarbons
Mud
Oil
Oil pollution
Oil wastes
Pressure
Shale
Spectrophotometry
Supercritical carbon dioxide
Temperature
Unconventional oil and gas drilling
Waste disposal
Waste oil based mud
X-ray fluorescence
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Summary:•An efficient and eco-friendly method of harmless disposal of OBM waste method was concerned.•Indoor experiment and instrumental analysis are carried out to investigate the extraction efficiency.•A mathematical modeling of extraction process based on differential mass balances is established. Oil based mud (OBM) is widely used in unconventional oil and gas drilling industry due to its advantages of harmlessness to reservoir and inhibition of shale swelling. However, hazardous and poisonous contaminants in the mud could not be discharged with conventional disposals and treatments, which are of low economic efficiency and negative environmental. Therefore, alternative treatment technologies such as supercritical carbon dioxide extraction (SCE) are being of more and more concern in drilling operations. In this paper, X-ray fluorescence (XRF) and Ultraviolet–visible spectrophotometry (UV–VIS) are applied to examine the contents of different contaminants in the oil based mud from the North China Sea, which indicates that the hydrocarbon concentrations significantly exceed the normal value while the heavy metals are negligible. SCE experiments are then conducted to extract hydrocarbons from the mud to evaluate effects of various SCE operation parameters including extraction pressure (10–30 MPa), temperature (20–65 °C), extraction time (20–150 min) and the mass ratio of supercritical carbon dioxide to waste OBM (1–12). The results demonstrate that extraction efficiency could be up to 98% under the temperature of 35 °C, the pressure of 20 MPa and the extraction time of 60 min. In addition, gas chromatography is performed, finding that SCE can discharge all hydrocarbon components from C10 to C26, with lighter carbon components of C10 to C14 and n-alkanes (NC) structure hydrocarbons have more removability under experimental condition. Moreover, the properties of retrieved hydrocarbons are not altered in extraction processes and can be recycled in drilling processes.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2019.04.111