Current situation of radiation setting and hardening of polymer muds
 
 
More details
Hide details
1
School of Crystallography, Birkbeck College, University of London
 
 
Publication date: 2006-05-01
 
 
Cement Wapno Beton 11(3) 171-183 (2006)
 
ACKNOWLEDGEMENTS
The author wishes to thank Dr. Lee Luthgens, formerly of the Interfaculty Reactor Institute, Delft University of Technology, Delft, Netherlands and Martin G.R. Bosma of Shell International Exploration and Production, Rijswijk, Netherlands for helpful advice.
REFERENCES (22)
1.
International Organisation for Standardisation: Petroleum and natural gas industries – Field testing of drilling fl uids – Part 1: Water-based fl uids, ISO 10414-1:2001.
 
2.
International Organisation for Standardisation: Petroleum and natural gas industries – Field testing of drilling fl uids – Part 2: Oil-based fl uids, ISO 10414-2:2002.
 
3.
International Organisation for Standardisation: Petroleum and natural gas industries – Drilling fl uid materials – Specifi cations and tests, ISO 13500:1998.
 
4.
E. B. Nelson: “Well Cementing”. Schlumberger Educational Services, Houston, Texas (1990).
 
5.
K.-H. Arens and M. Akstinat: “Bundesministerium für Forschung und Technologie, Forschungsbericht T 82-111, Technologische Forschung und Entwicklung – Nichtnukleare Energietechnik – Verbesserung der Ringraumzementation in tiefen und übertiefen Bohrungen, Teil 1: Bohrspülungen und Waschfl üssigkeiten”. Fachinformationszentrum Energie Physik Mathematik GmbH, Karlsruhe (1982).
 
6.
J. Bensted: Cementazioni per pozzi petroliferi/ Oilwell cementing. Il Cemento 87 (1), 9-20 (1990).
 
7.
J. Bensted: Developments with oilwell cements, in “Structure and Performance of Cements”, 2nd Edition, (Editors: J. Bensted and P. Barnes), pp. 237-252. Spon Press, London and New York (2002).
 
8.
J. Bensted: Slag cements for oil well construction. World Cement 27, No. 1, 57-64 (1996).
 
9.
K. M. Cowan, A.H. Hale and J.J. Nahm: Conversion of drilling fl uids to cement with blastfurnace slag: Performance properties and applications for well cementing. SPE 24575. 67th Annual Technical Conference and Exhibition of the Society of Petroleum Engineers, Washington DC, 4-7 October (1992).
 
10.
Farhataziz and M.A.J. Rodgers: “Radiation Chemistry – Principles and Applications”. VCH Publishers, New York and Weinheim (1987).
 
11.
A. Hummel: “Radiation Chemistry – The Chemical Effects of Ionising Radiation and Their Applications. Interfaculty Reactor Institute, Delft University of Technology, Delft (1995).
 
12.
L. H. Novak: US Patent 4547298, October 15 (1985).
 
13.
L. H. Novak: US Patent 4760882, August 2 (1988).
 
14.
L. H. Novak: US Patent 4768593, September 6 (1988).
 
15.
L. Luthjens: Personal communication (2002).
 
16.
J. Bensted: Class G and H basic oilwell cements. World Cement 23, No. 4, 44-50 (1992).
 
17.
Associação Brasileira de Normas Técnicas: NBR 9831 - Cimento Portland Destinado à Cimentação de Poços Petrolíferos - Especifi cação. ABNT, Rio de Janeiro (1993).
 
18.
T. C. Walton and J. Crivello: Electron-beam curable epoxy compositions. World Patent WO 98/14485 9 April (1998).
 
19.
J.-F. Baret and P. Maroy: Cementing compositions and applications thereof to cementing oilwell cements and the like. GB Patent 2 294 693 May 8 (1996).
 
20.
British Standards Institution: Petroleum and natural gas industries – Drilling fl uid materials – Specifi cations and tests, BS EN ISO 13500:1999.
 
21.
J.M. Boisnault, D. Guillot, A. Bourahal, T. Tirlia, T. Dahl, C. Holmes, A.M. Raiturkas, P. Maroy, C. Moffet, G.P. Perez Mejta, J.A. Martínez Ramírez, P. Revil and R. Roemer: Concrete developments in cementing technology. Oilfi eld Review 11, No. 1, 16-29 (1999).
 
22.
F. K. Chen, W. Bertozzi, G.W. Corris, W. Diamond, J.A. Doucet and J.S. Schweitzer: Circular induction accelerator for borehole logging. US Patent 5319314, June 7 (1994).
 
ISSN:1425-8129
Journals System - logo
Scroll to top