An apparatus for measuring volumetric changes in cement as the cement is exposed to pressures and temperatures to simulate down-hole conditions, in a high-pressure high-temperature chamber is described. The apparatus is described a mold having a first section adjacent a base and a second section mov
An apparatus for measuring volumetric changes in cement as the cement is exposed to pressures and temperatures to simulate down-hole conditions, in a high-pressure high-temperature chamber is described. The apparatus is described a mold having a first section adjacent a base and a second section movably attached to the first section and adjacent the base in which cement may be placed. The apparatus includes a sensor to measure the movement of the first and second sections relative to one another in response to volumetric changes in the cement. Also described is a method of measuring the volumetric changes in cement as the cement is exposed to simulated down-hole pressures and temperatures in a high-pressure, high-temperature chamber.
대표청구항▼
1. A method of measuring volumetric changes in cement as the cement is exposed to a given pressure and temperature in a high-pressure high-temperature chamber, comprising:providing a mold having a first section adjacent a base, the first section functionally associated with a first anchor block; a s
1. A method of measuring volumetric changes in cement as the cement is exposed to a given pressure and temperature in a high-pressure high-temperature chamber, comprising:providing a mold having a first section adjacent a base, the first section functionally associated with a first anchor block; a second section functionally associated with the first section, the second section adjacent the base, the first section, the second section, and the base defining the mold into which a measurable amount of cement may be placed, the second section functionally associated with a second anchor block; and a sensor adapted to measure the movement of the first and second sections relative to each other in response to volumetric changes in the cement when the cement is exposed to simulated down-hole pressures and temperatures, the first anchor block being adapted to move with respect to the first section and the second anchor block adapted to move with respect to the second section in response to volumetric changes of the cement; filling the mold with cement; placing the mold into the high-pressure high-temperature chamber; raising the pressure to a given value and the temperature to a given value; changing the pressure to other given values and the temperature to other given values; and recording data from the sensor over time. 2. The method of claim 1 further comprising sealing between the first section and the second section with a seal.3. The method of claim 2 in which the step of sealing includes sealing with an O-ring.4. The method of claim 2 in which the step of sealing further comprises sealing with a thin wall tubing.5. The method of claim 1 further comprising movably attaching the second section with the first section by a fastening assembly.6. The method of claim 5 in which the fastening assembly further comprises:a first bolt surrounded by a first spring and having a threaded end, the first bolt passing through a first hole in the second section and threadedly engaged with a first threaded hole in the first section; and a second bolt surrounded by a second spring and having a threaded end, the second bolt passing through a second hole in the second section and threadedly engaged with a second threaded hole in the first section, the springs adapted to bias the second section into contact with the first section. 7. The method of claim 5 in which the fastening assembly further comprises two alignment pins, each alignment pin adapted to engage in boles in the first and second sections.8. The method of claim 1 further comprising providing the first section of two substantially straight aides at a first angle, each side also having a mating surface to be associated with the second section.9. The method of claim 8 further comprising providing the second section of two substantially straight sides at a second angle, each side also having a mating surface to be associated with the mating surfaces of the first section to movably attach the first and second sections.10. The method of claim 9 in which the first and second angles are each 90 degrees.11. The method of claim 9 further comprising associating the mating surfaces of the first and second sections.12. The method of claim 11 further comprising contacting the second section with the sensor at a contact location.13. The method of claim 1 further comprising:receiving the first anchor block in a first channel in the first section, the first anchor block having a first anchor bolt; and receiving the second anchor block in a second channel in the second section, the second anchor block having a second anchor bolt. 14. The method of claim 1 in which the step of recording includes sensing with a linear displacement transducer.15. The method of claim 14 in which the step of sensing comprises sensing with a spring loaded displacement transducer.16. The method of claim 1 in which the step of recording includes sensing with an electromagnetic linear displacement transducer.17. The method of claim 1 in which the step of recording further comprises connecting the sensor to a data acquisition unit connected to a device to store data from the sensor over time.18. The method of claim 17 in which the device is either a chart recorder or a computer.19. The method of claim 1 in which the step of providing further comprises providing the first section, the second section, and the base of brass.20. The method of claim 1, further comprising:providing a plurality of molds, including a third section fixedly attached to a second base, a fourth section movably attached to the third section, the fourth section resting on the second base, the third section, the fourth section, and the second base defining a second of the plurality of molds into which a given amount of cement may be placed; and measuring with a plurality of first sensors, each first sensor functionally associated with one given mold of the plurality of molds, one of the plurality of first sensors adapted to measure the movement between the third and fourth sections of the second mold in response to volumetric changes in the cement when the cement is exposed simulated downhole conditions. 21. The method of claim 20 further comprising providing a basket, the basket having a bottom plate connected to a top plate by a plurality of mounting rods, the plurality of molds being located between the bottom plate and the top plate.22. The method of claim 21 further comprising moving the basket by a handle attached to the top plate.23. The method of claim 21 further comprising connecting the bottom plate to the mounting rods via nuts and connecting the top plate to the mounting rods via nuts.24. The method of claim 23 further comprising providing a lid for each mold, each lid having a portion defining at least one hole to accommodate the mounting rods; and a base having a portion defining at least one hole to accommodate the mounting rods.25. The method of claim 24 further comprising functionally associating at least one base with the mounting rods via a flange.26. The method of claim 25 further comprising positioning a first mold adjacent the bottom plate of the basket and positioning a second mold substantially above the first mold in the basket, the second mold being functionally associated with the mounting rods via the flange to define a gap between the base of the second mold and the lid of the first mold, the gap allowing the cement within the first mold to expand vertically.27. The method of claim 26 further comprising positioning a third maid substantially above the second mold in the basket, the third mold being functionally associated with the mounting rods via the flanges to define a gap between the base of the third mold and the lid of the second mold, the gap allowing the cement within the second mold to expand vertically.28. The method of claim 27 further comprising positioning the top plate of the basket is substantially above the third mold, the top plate being functionally associated with the rods to define a gap between the lid of the third mold and the top plate, the gap allowing the cement within the third mold to expand vertically.29. The method of claim 28 further comprising placing a plurality of types of cement into the plurality of molds.30. A method for measuring volumetric changes in cement as the cement is exposed to a given pressure and temperature in a high-pressure high-temperature chamber, comprising:providing a mold having a first section adjacent a base; a second section adjacent the base and movably attached to the first section, the first section, the second section, and the base defining the mold; functionally associating a lid with the first and second sections to enclose the mold, the lid being movably attached to the first and second section allowing the cement to expand vertically; placing cement into the mold and the lid on the mold; placing the mold into the chamber; altering the pressure, the temperature, or both pressure and temperature within the chamber; and continuously measuring with a sensor the movement of the first and second sections relative to one another in response to volumetric changes in the cement when the cement is exposed to simulated down-hole pressures and temperatures. 31. The method of claim 30 further comprising sealing the lid against the first and second sections with a seal.32. The method of claim 31 further comprising movably attaching the lid to the first section and the second section with a fastening assembly having:a first bolt surrounded by a first spring and having a threaded cud, the first bolt passing through a first bole in the second section and threadedly engaged with a first threaded hole in the first section; and a second bolt surrounded by a second spring and having a threaded end, the second bolt passing through a second hole in the second section and threadedly engaged with a second threaded bole in the first section, the springs adapted to bias the second section into contact with the first section. 33. The method claim 32 further comprising measuring the movement of the lid relative to the first and second section with a second sensor contacting the lid.34. The method of claim 33 in which the step of measuring the movement of the lid includes measuring with a second sensor in contact with the lid.35. A method for measuring volumetric changes in cement as the cement is exposed to a given pressure and temperature in a high-pressure high-temperature chamber, comprising:providing a first section adjacent a base, the first section functionally associated with a first anchor block having a first bolt; providing a second section functionally associated with the first section, the first section, the second section and the base defining a mold into which a measurable amount of cement may be placed, the second section adjacent the base and functionally associated with a second anchor block; and providing a sensing means for continuously measuring the movement of the first and second sections relative to one another in response to volumetric changes in the cement as the cement is exposed to simulated downhole pressures and temperatures, wherein the first anchor block is adapted to move with respect to the first section and the second anchor block is adapted to move with respect to the section when the cement is exposed to simulated down-hole pressures and temperatures; placing the cement in the chamber; and measuring the relative movement of the first and second anchor blocks. 36. The method of claim 35 further comprising providing:means for sealing the first section and the second section; and means for movably attaching the second section to the first section. 37. A method of measuring volumetric changes in cement comprising:providing a mold having a first section adjacent a base, a second section adjacent a base, functionally associating the first section with a first anchor block; functionally associating the second section with the first section; functionally associating the second section with a second anchor block; placing a measurable amount of cement into the mold; placing the mold into a chamber; increasing pressure in the chamber to a given value, raising temperature in the chamber to a given value, or both increasing the pressure and raising the temperature to given values for each; measuring the movement of the &s and second sections relative to each other in response to volumetric changes in the cement when the cement with a sensor, the first anchor block being adapted to move with respect to the first section end the second anchor block adapted to move with respect to the second section in response to volumetric changes of the cement; and recording data from the sensor over time.
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