Thermal Desorption of Oil from Oil-Based Drilling Fluids Cuttings: Processes and Technologies

Stephenson, Ralph L.; Seaton, Simon; McCharen, Robert; Hernandez, Edgardo; Pair, R. Benson

doi:10.2118/88486-ms

Cited by 18 publications

(5 citation statements)

References 7 publications

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“…Reported management options for drill cuttings are expensive (e.g., slurry reinjection [12]); thermal desorption [13]; and incineration [14]), require intensive energy use (e.g., incineration and thermal or microwave desorption [15]), time consuming (e.g., biological methods such as bioremediation [16] and phytoremediation [17]), or environmentally unsustainable (e.g., disposal in landfills [18]; reuse in construction without prior treatment [19]). Recent studies [20,21] have also shown the possibility of using stabilization/solidification (S/S) with hydraulic binders as a possible treatment option, with the potential of using the stabilized/solidified (s/s) product for useful purposes.…”

Section: Drilling Fluids and Cuttingsmentioning

confidence: 99%

Stabilization/solidification of petroleum drill cuttings

Leonard

Stegemann

2010

Journal of Hazardous Materials

112

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Section: Drilling Fluids and Cuttingsmentioning

confidence: 99%

Stabilization/solidification of petroleum drill cuttings

Leonard

Stegemann

2010

Journal of Hazardous Materials

112

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“…Additionally, local residents are often against storage of such hazardous waste in their neighborhood. The most applied option for treatment of oil contaminated waste is thermal desorption of organic compounds [4,5]. The thermal process can be conducted in cement kiln and, additionally, leachable inorganic residues can be immobilized by in situ formed mineral phases (for example hydroxyapatite) [6].…”

Section: Introductionmentioning

confidence: 99%

Toxicological Evaluation of Thermal Treatment of Drilling Waste from Shale Gas Exploration in Poland

Drzewicz

Nałęcz-Jawecki

Drobniewska

et al. 2019

Ecological Chemistry and Engineering S

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The oil containing drilling waste is a worldwide environmental problem associated with oil and gas exploration. In Poland, the problem of the drilling waste has become important since starting of shale gas exploration. The results of thermal treatment of drilling waste from shale gas exploration are presented. It has been shown that organic content vaporized completely at temperature up to 500 °C. The main problem is high content of chloride, sulfate, sodium, potassium, magnesium in the waste and its water leachate. Toxicity tests confirmed that high salinity of the samples pose important risk for environment. Due to the high content of barium, the drilling waste may be utilized in production of cement with high chemical and heat resistance and opaque to X-ray. Thermal treatment process is a viable option for remediation of the drilling waste; however, the product of the process needs further treatment in order to remove its high salinity.

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“…Thermal desorption disposal of oily cuttings has attracted attention because of its advantages of high efficiency, less secondary pollution, strong adaptability of raw materials, and reusable of processed products (Jones et al 2002;Stephenson et al 2004;Júnior et al 2017). For on-site continuous processing, heating mode and material carrier are two important technical links of the thermal desorption unit (TDU).…”

Section: Introductionmentioning

confidence: 99%

“…Fixed bed and fluidized bed are typical installations (Schmidt and Kaminsky 2001;Shen and Zhang 2003;Liu et al 2008), which are generally considered suitable for laboratory research. Rotary barrel device (or rotary kiln) is an optional scheme for continuous processing of materials (Fortuna et al 1997;Chen et al 2006;Sun et al 2017). The rotary barrel device usually fixes up the heating unit on the outer side, heating the material through heat conduction.…”

Section: Introductionmentioning

confidence: 99%

Pilot experiment of oily cuttings thermal desorption and heating characteristics study

Zhang

Yao

2018

J Petrol Explor Prod Technol

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Thermal desorption disposal of oily drilling cuttings was tested on the developed medium sized experimental system. The thermal desorption unit adopted electromagnetic induction heating during continuous conveying of materials by double screws, and the handling capability was 250 L/h. Thermal desorption test at different temperatures (300-550 °C) were carried out in conditions of residence times of 7 min and 12 min respectively. Total petroleum hydrocarbon (TPH) content of samples after treatment reduced to less than 1% when heating temperature up to 450 °C, and the oil removal rate was about 95%. The residual content of TPH dropped to 0.3% when heating temperature at 550 °C and residence time reached to 12 min. The temperature distribution of the material in heating bed obtained by numerical simulation based on test operating conditions. A temperature rising lag area of materials in filling section of barrel was found when heating. The material temperature in this area was only about 55-65% of the setting value when residence time reach to 12 min, while the other areas temperatures could up to above 90%, and the deviation between the material temperature and the setting value became obvious when the temperature is higher.

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Thermal Desorption of Oil from Oil-Based Drilling Fluids Cuttings: Processes and Technologies

Cited by 18 publications

References 7 publications

Stabilization/solidification of petroleum drill cuttings

Stabilization/solidification of petroleum drill cuttings

Toxicological Evaluation of Thermal Treatment of Drilling Waste from Shale Gas Exploration in Poland

Pilot experiment of oily cuttings thermal desorption and heating characteristics study

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