Development of high temperature low density cement
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C04B-007/02
C04B-020/00
C04B-028/04
C09K-008/473
출원번호
US-0298427
(2014-06-06)
등록번호
US-9796622
(2017-10-24)
발명자
/ 주소
Al-Yami, Abdullah Selah Hussain
Al-Humaidi, Ahmad Saleh
Al-Saleh, Salah Hamad
AlSubaie, Turki Thowini Mohammad
출원인 / 주소
Saudi Arabian Oil Company
대리인 / 주소
Bracewell LLP
인용정보
피인용 횟수 :
0인용 특허 :
35
초록
The invention provides a low density cement composition. The composition includes a cement component, a glass sphere component, a bentonite component, a fine calcium carbonate component, a medium calcium carbonate component, a silica sand component, and a silica flour component.
대표청구항▼
1. A low density cement composition, the composition comprising: a cement component;a glass sphere component, the glass sphere component sized to withstand up to 18,000 psi;a bentonite component consisting essentially of montmorillonite at a concentration of 0.5% by weight of cement (BWOC);a calcium
1. A low density cement composition, the composition comprising: a cement component;a glass sphere component, the glass sphere component sized to withstand up to 18,000 psi;a bentonite component consisting essentially of montmorillonite at a concentration of 0.5% by weight of cement (BWOC);a calcium carbonate mix having two calcium carbonate components with separate particle sizes, the calcium carbonate mix in an amount of about 10% BWOC and having: a fine calcium carbonate component characterized by an average particle size of 20 microns; anda medium calcium carbonate component characterized by an average particle size distribution in a range of from 100 microns to 150 microns, wherein the amount by weight of medium calcium carbonate component is less than the amount by weight of fine calcium carbonate component; anda silica mix having two silica components with separate particle sizes, the silica mix having: a silica sand component characterized by an average particle size in a range of from 175 microns to 200 microns; anda silica flour component characterized by an average particle size of 15 microns, wherein the amount by weight of silica flour component is greater than the amount by weight of silica sand component. 2. The low density cement composition of claim 1, wherein the glass sphere component is a hollow glass sphere component. 3. The low density cement composition of claim 1, wherein the glass sphere component is in a range of from 20% to 100% by weight of cement (BWOC). 4. The low density cement composition of claim 1, wherein the fine calcium carbonate component is in a range of from 1% to 10% BWOC. 5. The low density cement composition of claim 1, wherein the medium calcium carbonate component is in a range of from 1% to 10% BWOC. 6. The low density cement composition of claim 1, wherein the silica sand component is in a range of from 1% to 100% BWOC. 7. The low density cement composition of claim 1, wherein the silica flour component is in a range of from 1% to 100% BWOC. 8. The low density cement composition of claim 1, wherein the cement component is a Portland cement. 9. The low density cement composition of claim 1, wherein the cement component is a Portland cement and a microfine cement characterized by a particle size in a range of from 2 microns to 5 microns. 10. A low density cement composition, the composition comprising: a Portland cement component;a microtine cement component characterized by a particle size in a range of from 2 microns to 5 microns;a glass sphere component, the glass sphere component sized to withstand up to 18,000 psi;a bentonite component consisting essentially of montmorillonite at a concentration of 0.5% by weight of cement (BWOC);a calcium carbonate mix having two calcium carbonate components with separate particle sizes, the calcium carbonate mix having: a fine calcium carbonate component characterized by a particle size of 20 microns; anda medium calcium carbonate component characterized by a particle size in a range of from 100 microns to 150 microns, wherein the amount by weight of medium calcium carbonate component is less than the amount by weight of fine calcium carbonate component; anda silica mix having two silica components with separate particle sizes, the silica mix having: a silica sand component characterized by a particle size in a range of from 175 microns to 200 microns; anda silica flour component characterized by a particle size of 15 microns, wherein the amount by weight of silica flour component is greater than the amount by weight of silica sand component. 11. The low density cement composition of claim 10, wherein the glass sphere component is a hollow glass sphere component. 12. The low density cement composition of claim 1, wherein the fine calcium carbonate component is in an amount of about 6.5% BWOC. 13. The low density cement composition of claim 1, wherein the medium calcium carbonate component is in an amount of about 3.5% BWOC. 14. The low density cement composition of claim 1, wherein the low density cement composition has a density of about 83 pcf and a compressive strength from 3,595 to 3,623 psi. 15. The low density cement composition of claim 14, wherein the low density cement composition has an API fluid loss of 60 ml over 30 minutes. 16. A method of using the low density cement composition of claim 1, the method including: providing the low density cement composition having the calcium carbonate mix in an amount of about 10% BWOC with a compressive strength from 3,595 to 3,623 psi;cementing a casing of a well with the low density cement composition to support the casing and provide wellbore isolation. 17. The method of claim 16, further including minimizing hydrostatic pressure on a formation within a circulation zone with the low density cement composition, wherein the low density cement composition has a density of about 83 pcf. 18. The method of claim 16, wherein the low density cement composition is free of additional strengthening agents. 19. The method of claim 16, wherein the well is a high temperature and high pressure well. 20. The method of claim 16, wherein the well has a temperature of about 300° F. 21. The method of claim 16, wherein the well has a pressure in a range of 10,000 psi to 18,000 psi. 22. The method of claim 16, further comprising providing fluid loss control with the low density cement composition having an API fluid loss of 60 ml over 30 minutes. 23. A method of cementing a casing of a high temperature well in one stage, the method including: circulating the low density cement composition of claim 1 having the calcium carbonate mix in an amount of about 10% BWOC into the high temperature well to support the casing, wherein the well has a pressure in a range of 10,000 psi to 18,000 psi; andallowing the low density cement composition to cure and form a bond with the casing to provide zonal isolation within the high temperature well. 24. The method of claim 23, wherein the low density cement composition has a density of about 83 pcf for minimizing hydrostatic pressure on a formation within a circulation zone with the low density cement composition. 25. The method of claim 23, wherein the high temperature well has a temperature of about 300° F. 26. The method of claim 23, wherein the low density cement composition has an API fluid loss of 60 ml over 30 minutes for providing fluid loss control within the high temperature well.
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