Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The presented research is directed to the porous ceramics microstructural behaviour assessment with the use of numerical methods. Such new material can be used for thermal insulation, filters, bio-scaffolds for tissue engineering, and preforms for composite fabrication. One of the newest and most interesting applications, considered in this work, is a usage of those materials for production of proppants for hydraulic fracturing of shale rocks. The hydraulic fracturing is a method of gas recovery from unconventional reservoirs. A large amount of fracturing fluid mixed with proppant (small particles of sand or ceramics) is pumped into the wellbore and its pressure causes the rock cracking and gas release. After fracturing the fluid is removed from the developed cracks leaving the proppant supporting the fracture. In the paper the grain porous ceramics which is used for proppant particles preparation was studied. The influence of grains distribution on the porous ceramics mechanical behaviour during compression was simulated with the use of finite element method.
Słowa kluczowe
Rocznik
Tom
Strony
5--17
Opis fizyczny
Bibliogr. 15 poz., rys., zdj.
Twórcy
autor
- Katedra Mechaniki i Informatyki Stosowanej, Wydział Mechaniczny, Wojskowa Akademia Techniczna, ul. Gen. Witolda Urbanowicza 2, 00-908 Warszawa
Bibliografia
- Cronin D.S., Bui K., Kaufmann C., McIntosh G., Berstad T., Cronin D. 2003. Implementation and validation of the Johnson–Holmquist ceramic material model. In Proceedings of LS-DYNA 4th European LS-DYNA Users Conference, UIM, Germany.
- Doltsinis I., Dattke R. 2001. Modelling the damage of porous ceramics under internal pressure. Computer Methods in Applied Mechanics and Engineering, 191(1-2): 29-46.
- Hallquist J. 2006. LS-DYNA theory manual. LSTC, Livermore.
- Hammel E.C., Ighodaro O.L.-R., Okoli O.I. 2014. Processing and properties of advanced porous ceramics: An application based review. Ceramics International, 40(10): 15351-15370.
- Kalita S.J., Bose S., Hosick H.L., Bandyopadhyay A. 2003. Development of controlled porosity polymer – ceramic composite scaffolds via fused deposition modelling. Materials Science and Engineering, C, 23: 611-620.
- Knez D., Ziaja J., Piwońska M. 2017. Computer simulation of the influence of proppant high diameter grains damage on hydraulic fracturing efficiency. AGH Drilling, Oil, Gas, 34(2): 411-418.
- Lo S.-W., Miller M.J., Li J. 2002. Encapsulated breaker release rate at hydrostatic pressure at elevated temperatures. In Proceedings of SPE Annual Technical Conference and Exhibition, San Antonio, Texas, SPE-77744.
- Miedzińska D., Niezgoda T., Małek E., Zasada Z. 2013. Study on coal microstructure for porosity levels assessment. Bulletin of the Polish Academy of Sciences — Technical Sciences, 61(2): 499-505.
- Murphy B. 2013. CARBO Ceramics is Sitting in the Fracking Catbird Seat: CRR, UPL, CHK. SmallCap Network, 1: 13-15.
- Petty N.A., Xu G. 2010. The Effects of Proppant Concentration on the Rheology of Slurries for Hydraulic Fracturing - A review. UCR Undergraduate Research Journal, 1: 45-50.
- Sadowski T., Samborski S. 2003. Prediction of the mechanical behaviour of porous ceramics using mesomechanical modelling. Computational Materials Science, 28(3-4): 512-517.
- Shchurova E.I. 2016. Modeling of the Ceramics Structure for the Finite Element Analysis. Procedia Engineering, 150: 179-184.
- Studart A.R., Gonzenbach U.T., Tervoort E., Gauckler L.J. 2006. Processing routes to macroporous ceramics: a review. Journal of the American Ceramic Society, 89: 1771-1789.
- Walsh D., Boanini E., Tanaka J., Mann S. 2005. Synthesis of tri-calcium phosphate sponges by interfacial deposition and thermal transformation of self-supporting calcium phosphate films. Journal of Materials Chemistry, 15: 1043-1048.
- Weaver J.D., Batenburg D.W., Nguyen P.D. 2007. Fracture-Related Diagenesis May Impact Conductivity. Petroleum Engineers Source SPE, 12(3): 155-163.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3ff655ff-f8b0-4a56-9971-ca21b387177c