Application of nanotechnology in drilling fluids for the oil and gas industry has been a focus of several recent studies. A process for the in situ synthesis of nanoparticles (NPs) into drilling fluids has been developed previously in our group and showed that calcium-based NPs (CNPs) and iron-based NPs (INPs), respectively, with concentrations of 0.5–2.0 wt% can dramatically improve filtration properties of commercial drilling fluids in a laboratory environment. In this work, a modified process for the emulsion-based synthesis of NPs on a 20 m3 volume and its subsequent full-scale field testing are presented. Comparison between NP carrier fluids prepared under controlled environment in the laboratory and those prepared on a large scale in a mixing facility revealed very little variation in the main characteristics of the drilling fluid; including the size of the solid constituents. Transmission electron microscopy photographs suggest an average CNP particle size in the carrier fluid of 51 ± 11 nm. Results from the full-scale field test showed that total mud losses while drilling with CNP-based invert emulsion were on average 27 % lower than in the case of conventional fluids. This loss prevention falls within the range observed in the laboratory.
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Amanullah M, Al-Tahini A (2009) Nano-technology—its significance in smart fluid development for oil and gas field application. In: SPE 126102, SPE Saudi Arabia section technical symposium and exhibition, AlKhobar, Saudi Arabia, 9–11 May 2009
Amanullah M, Al-Arfaj M, Al-Abdullatif Z (2011) Preliminary test results of nano-based drilling fluids for oil and gas field application. In: SPE/IADC 139534, SPE/IADC drilling conference and exhibition, Amsterdam, Netherlands, 1–3 March 2011
API RP-13B (2014) Recommended practice for field testing oil-based drilling fluids. pp 1–141
Contreras O, Hareland G, Husein M, Nygaard R, Alsaba M (2014a) Application of in-house prepared nanoparticles as filtration control additive to reduce formation damage. In: SPE 168116-MS, SPE international symposium and exhibition on formation damage control, Lafayette, Louisiana, USA, 26–28 February 2014
Contreras O, Hareland G, Husein M, Nygaard R, Alsaba M (2014b) Experimental investigation on wellbore strengthening in shales by means of nanoparticle-based drilling fluids In: SPE 170589, SPE annual technical conference and exhibition, Amsterdam, Netherlands, 27–29 October 2014
Contreras O, Hareland G, Husein M, Nygaard R, Alsaba M (2014c) Wellbore strengthening in sandstones by means of nanoparticle-based NPs applications in drilling industry. In: SPE 170263, SPE deepwater drilling and completions conference, Galveston, Texas, USA, 10–11 September 2014
El-Wazeer F, Haggag M, El-Farouk O (1999) Formation evaluation masked by mud invasion. In: SPE 53152, SPE Middle East oil show, Bahrain, 20–23 February 1999
Hoelscher KP, Young S, Friedheim J, Stefano GD (2013) Nanotechnology application in drilling fluids. In: Offshore Mediterranean conference and exhibition, Ravenna, Italy, 20–22 March 2013
Husein M, Nassar NN (2007a) Study and modeling of iron hydroxide nanoparticles uptake by AOT (w/o) microemulsions. Langmuir 23(26):13093–13103
Husein M, Nassar NN (2007b) Effect of microemulsion on copper oxide nanoparticles uptake by AOT microemulsion. J Colloid Interface Sci 316:442–450
Husein M, Nassar NN (2008) Nanoparticles preparation using the single microemulsion scheme. Curr Nanosci 4:370–380
Husein M, Zakaria M, Hareland G (2012) Novel nanoparticle-containing drilling fluids to mitigate fluid loss. PCT Application: PCT/CA2012/050075
Jiao D, Sharma M (1994) Mechanism of cake buildup in crossflow filtration of colloidal suspensions. J Colloid Interface Sci 162:454–462
Jiao D, Sharma M (1996) Mud induced formation damage in fractured reservoirs. In: SPE 30107, European formation damage control conference, Hague, Netherlands, 15–16 May 1996
Li L, Yuan X, Sun J, Xu X, Li S, Wang L (2013) Vital role of nanotechnology and nanomaterials in the field of oilfield chemistry. In: IPTC 16401, international petroleum technology conference, Beijing, China, 26–28 March 2013
Liu X, Civan F (1994) Formation damage and skin factor due to filter cake formation and fines migration in the near-wellbore region. In: SPE 27364, SPE international symposium on formation damage control, Lafayette, Louisiana, USA, 7–10 February 1994
Nelson PH (2009) Pore-throat sizes in sandstones, tight sandstones, and shales. Am Assoc Pet Geol Bull 93:329–340
Nwaoji CO, Hareland G, Husein M, Nygaard R, Zakaria FM (2013) Nano-particle drilling fluid experimental design using hydraulic fracture apparatus. In: SPE 163434-MS, SPE/IADC drilling conference and exhibition, Amsterdam, The Netherlands, 5–7 March 2013
Santos H, Villas-Boas MB, Lomba RFT, Sa CHM, Oliveira SF, Costa JF (1999) API filtrate and drilling fluid invasion: is there any correlation? In: SPE 53791, Latin American and Caribbean petroleum engineering conference, Caracas, Venezuela, 21–23 April 1999
Sensoy T, Chenevert ME, Sharma MM (2009) Minimizing water invasion in shale using nanoparticles. In: SPE 124429, SPE annual technical conference and exhibition, New Orleans, Louisiana, USA, 4–7 October 2009
Shahri P, Zabihi S (2012) A new model for determining the radius of mud loss during drilling operation in a radial fractured network. In: SPE 163028, Nigerian annual international conference and exhibition, Abuja, 6–8 August 2012
Zakaria M, Husein M, Hareland G (2012) Novel nanoparticle-based drilling fluid with improved characteristics. In: SPE 156992 international oilfield nanotechnology conference and exhibition, Noordwijk, The Netherlands, 12–14 June 2012
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Borisov, A.S., Husein, M. & Hareland, G. A field application of nanoparticle-based invert emulsion drilling fluids. J Nanopart Res 17, 340 (2015). https://doi.org/10.1007/s11051-015-3143-x
- Drilling fluid
- Invert emulsion
- Field application
- Oil and gas