Cementy wiertnicze. Cz. 10. Cementy belitowo-krzemionkowe, obejmujące cement klasy J

• Autorzy: Bensted J. , Smith J. R.

Warianty tytułu

EN

Oilwell cements. Part 10. Dicalcium silicate-silica cements, including Class J cement

• Języki publikacji: PL

Abstrakty

PL

Cementy oparte na krzemianie dwuwapniowym i krzemionce wzbudzają większe zainteresowanie w ostatnim czasie z uwagi na mniejsze zużycie energii na ich produkcję. Omówiono głownie te cementy należące do cementów wiertniczych klasy J w Północnej Ameryce oraz cement belitowo- krzemionkowy w Rosji i w innych krajach tego bloku. Cementy te były pierwotnie przeznaczone do cementowania odwiertów w warunkach wysokiej temperatury i ciśnienia. Przeprowadzono w laboratorium badania hydratacji cementu wiertniczego klasy J w warunkach hydrotermalnych wykazały obecność C-S-H (II), tobermorytu i śladów xonotlitu i scawtytu.

EN

Dicalcium silicate-silica cements have been atlracting more interest in recent times, because of the reductions possible in lowering energy expenditure during their manutacture. The main dicalcium silicate-silica cements discussed are Class J oilwell cement in North America and belite-silica cement (BSC) in Russia and the various CIS countries. These cements were originally designed for high temperature-high pressure well cementing conditions. Hydrated phases present under hydrothermal conditions for Class J oilwell cement in laboratory studies undertaken have included C-S-H (II), tobermorite and small traces of xonotlite and scawtite.

Słowa kluczowe

PL

cement wiertniczy; cement belitowo-krzemionkowy; cement klasy J; skład chemiczny; właściwości fizyczne; wytwarzanie

EN

oilwell cement; dicalcium silicate-silica cement; Class J cement; chemical composition; physical characteristics; manufacturing

• Wydawca: Fundacja Cement, Wapno, Beton
• Czasopismo: Cement Wapno Beton
• Rocznik: 2012
• Tom: R. 17/79, nr 1
• Strony: 23--31
• Opis fizyczny: Bibliogr. 18 poz.

Twórcy

autor

Bensted J.

autor

Smith J. R.

• Department of Chemical Engineering, UCL, London WC1E 7JE, UK

Bibliografia

• 1. S. Maravilla: A hydrothermal setting cement for cementing ultradeep hot wells. Journal of Petroleum Technology 26, No. 10, 1087-1094 (October 1974).
• 2. American Petroleum Institute: 'Specification for Materials and Testing for Well Cements'. API Specification 10, Third Edition, July 1, 1986. API Production Department, Dallas, Texas (1986).
• 3. J. Bensted: Studio dell'idratazione del cemento di Classe J per pozzi petroliferi. / Investigation of the hydration of Class J oilwell cement. II Cemento 86 (1), 37-54 (1989).
• 4. G. Bell, J. Bensted and F.P. Glasser: Characterisation of hydrothermallytreated calcium silicate and oilwell cement hydration products. Advances in Cement Research 2, No. 6, 61-72 (1989).
• 5. J. Bensted: Valutazione critica della normative del cement di Classe J per pozzi petroliferi mediante il ricorso a techniche microscopiche. / Critical assessment of the Class J cement specification using microscopic techniques. II Cemento 89 (3),135-148 (1992).
• 6. G.M.M. Bell, J. Bensted, F.P. Glasser, E.E. Lachowski, D.R. Roberts and S.A Rodger: Instrumental investigations of hydration of Class J oilwell cement. Advances in Cement Research 5, No. 19, 111-118 (1993).
• 7. D. Degouy and M. Martin: Characterisation of the evolution of cementing materials after ageing under severe bottom hole conditions. Society of Petroleum Engineers Drilling & Completion 8, No. 1, 57-63 (March 1993).
• 8. A.L Bulatov: 'Tamponazhnye materialy tekhnologiya tsementirovaniya skvazhin'. (Plugging Materials and Well Cementing Technology). Nedra Publishers, Moscow (1982).
• 9. N.A Sidorov: 'Burienie i ekspluatatsiya neftyanykh i gazovykh skvazhin'. ('Drilling and Exploitation of Oil and Gas Wells'). Nedra Publishers, Moscow (1982).
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• 11. J. Bensted: Effect of aeration on the properties of Class G oilwell cement. British Ceramic Proceedings 35, 317-337 (1984).
• 12. I.M. Silk, K. Bennett, J. Bensted, I.M. Geddes, S.C. Gill, A.P. Hibbert, W.A. Loe and J. McLuckie: Exposure to moisture alters well cement. Petroleum Engineer International No. 3, 45-49 (1986).
• 13. F.J. Parente Neive Santos: Efeitos do armazenomento e transporte nas propriedades do cimento Classe G para poços petroliferos. Anais do 2e Congresso Brasileiro de Cimento, São Paulo (SP), 19 a 22 de Novembro de 1990. Vol. 2, 349-369. Associação Brasileira de Cimento Portland. São Paulo (1990).
• 14. J. Bensted: The hydration of Portland cement, in 'Advances in Cement Technology: Chemistry, Manufacture and Testing', 2nd Edition. (Ed. S.N. Ghosh), pp. 31-86. Tech Books International, New Delhi (2002).
• 15. G.M. Photiadis, S.J.R. Simons, J. Bensted, D. Inman, M. Tyrer and A. Maries: Low energy synthesis of the cement compound ß-CasSiO4 in molten NaCl solvent. Cement and Concrete Science Conference, Extended Abstracts, 4 pp. University of Leeds, (7-8 September 2009).
• 16. G Photiadis, A. Maries, M. Tyrer, D. Inman, J. Bensted, S. Simons and P. Barnes: Low energy synthesis of cement compounds in molten salt. Advances in Applied Ceramics 110, No. 3, 137-141 (2011).
• 17. J.I. Bhatty, F. M. Miller and S.H. Kosmatka: 'Innovations in Portland Cement Manufacturing'. Portland Cement Association, Skokie, IlIinois (2004).
• 18. J. Bensted: Calcium germanates and their hydraulicity. / Germaniany wapniowe i ich własności hydrauliczne. Cement-Wapno-Beton No. 1, 8-14 (2002).