RU2005140269A - DEVICE AND METHOD FOR EVALUATING THE LAYER - Google Patents

Claims (27)

1. A viscometer-densimeter for a downhole tool positioned in a wellbore passing through an underground formation, wherein the downhole tool is designed to transfer at least a portion of the fluid from the formation to a viscometer-densimeter containing a sensing unit located inside the downhole tool and containing at least at least two spaced apart connectors, a string suspended with tension between said at least two connectors so that interaction with the string fluid yes viscometer-densimeter is disposed within a downhole tool, a downhole tool located in a subterranean formation and receives fluid from a subterranean formation, wherein the connector structure and string formation frequency oscillator provides at least one magnet that creates a magnetic field that interacts with the string. 2. The viscometer-densimeter according to claim 1, characterized in that the connectors and the string are made of the same type of material. 3. The viscometer-densimeter according to claim 1, characterized in that it further comprises means for preventing rotation of the string with respect to the connectors. 4. The viscometer-densimeter according to claim 3, characterized in that the means for preventing rotation of the string further comprises a sleeve connected to the string, the sleeve having a non-circular cross section. 5. The viscometer-densimeter according to claim 1, characterized in that it further comprises a calculation circuit receiving a response from the string, for calculating at least two parameters of the fluid interacting with the string. 6. The viscometer-densimeter according to claim 5, characterized in that the two parameters are viscosity and density. 7. The viscometer-densimeter according to claim 1, characterized in that the connectors and the string are made of materials having similar coefficients of thermal expansion for the formation of a frequency oscillator. 8. The viscometer-densimeter according to claim 1, characterized in that it further comprises a flow tube in which the string is suspended by means of said connectors, wherein the tube, connectors and string are made of materials having similar coefficients of thermal expansion to form a frequency oscillator. 9. A computer-readable medium containing a logic device for receiving a response from at least two sensing units, wherein one sensing unit is located in a fluid with unknown parameters, and the other sensing unit is located in a fluid with known parameters, and to calculate a signal indicating at least two unknown parameters of the fluid in which one sensing block is located, while essentially eliminating variations in the conditions of the wellbore surrounding the sensing block in the fluid e with unknown parameters. 10. The computer-readable medium according to claim 9, characterized in that the logic device for calculating the signal comprises a logic circuit for performing complex processing of data received from the sensitive blocks. 11. The computer-readable medium of claim 9, wherein the two unknown parameters are viscosity and density. 12. A downhole tool located in a wellbore having a wall and passing through an underground fluid reservoir, comprising a body surrounding at least one evaluation cavity, a fluid supply device extending from the body and interacting to form a seal with the wall of the wellbore and having at least one inlet communicating with the evaluation cavity for receiving fluid from the formation and placement in the evaluation cavity, a viscometer-densimeter containing a sensing unit located inside the evaluation full cavity and containing at least two spaced apart connectors, a string suspended with tension between said at least two connectors so that the string interacts with the fluid inside the evaluation cavity, with the connectors and the string forming at least one frequency oscillator a magnet that creates a magnetic field that interacts with the string. 13. The downhole tool of claim 12, wherein the connectors and string are made of the same type of material. 14. The downhole tool according to item 12, characterized in that it further comprises means for preventing rotation of the string with respect to the connectors. 15. The downhole tool according to 14, characterized in that the means for preventing rotation of the string further comprises a sleeve connected to the string, while the sleeve has a non-circular cross section. 16. The downhole tool according to item 12, characterized in that it further comprises a calculation circuit that receives a response from the string and is designed to calculate at least two parameters of the fluid interacting with the string. 17. The downhole tool of claim 16, wherein the two parameters are viscosity and density. 18. The downhole tool of claim 12, wherein the connectors and string are made of materials having similar thermal expansion coefficients to form a frequency oscillator. 19. The downhole tool according to item 12, characterized in that it further comprises a flow tube in which the string is suspended by means of connectors, and the outlet pipe, connectors and string are made of materials having similar coefficients of thermal expansion, for the formation of a frequency oscillator. 20. The downhole tool according to item 12, characterized in that it further comprises a comparison chamber containing a fluid with known properties, while the downhole conditions inside the comparison chamber are similar to the downhole conditions inside the assessment chamber, a sensing unit inside the comparison chamber, one sensing unit located in fluid with unknown parameters of the evaluation cavity, and another sensitive unit located in the fluid with known parameters in the comparison chamber. 21. A method for measuring at least two unknown parameters of an unknown fluid in a wellbore passing through a formation with a fluid, which consists in placing a device for receiving the fluid of the downhole tool, providing interaction with the wall of the wellbore with a seal, extracting the fluid from the formation and directing into the evaluation cavity inside the downhole tool, fluid data is sampled inside the evaluation cavity by means of a viscometer-densimeter having a string located inside the evaluation cavity suspended between the two connectors, wherein the connectors form a string and a frequency oscillator. 22. The method according to item 21, characterized in that as an evaluation cavity using a bypass line. 23. The method according to item 21, characterized in that as the evaluation cavity using a selective camera. 24. The method according to p. 21, characterized in that it further calculates at least two parameters by using data selected inside the evaluation cavity. 25. The method according to paragraph 24, wherein the at least two parameters include viscosity and density. 26. The method according to item 21, characterized in that it further selects data on a known fluid inside the comparison chamber having temperature and pressure associated with the temperature and pressure of the fluid inside the evaluation cavity. 27. The method according to p. 26, characterized in that it further computes at least two parameters of the unknown fluid inside the evaluation cavity by using data selected from the comparison chamber, and data selected from the evaluation cavity.