RU2003106283A - WELL MANAGEMENT METHOD AND WELL DRILLING SYSTEM - Google Patents

Claims (23)

1. A method of controlling work in a well, in which a model of the drilling process is constructed, representing the interaction of conditions in the bottom of the well with the operation of the drill pipe string; obtaining many results of downhole measurements of drilling conditions during work in the well; updating the model of the drilling process based on the results of downhole measurements of drilling conditions; determining the set of optimal drilling parameters based on an updated model of the drilling process; transmission of data on optimal drilling parameters to the ground control system; and repeatedly repeating the operations of receiving, updating, determining and transmitting during work in the well. 2. The method according to claim 1, in which, during the model building operation, the model of the drilling process is additionally filled with parameters representing the geology of the formation surrounding the wellbore. 3. The method according to claim 1, in which when the data transfer operation further determine the drilling mode; and executing a control sequence scenario based on the drilling mode. 4. The method according to claim 3, in which during the data transfer operation, the output of the control sequence script is transmitted to the ground control system. 5. The method according to claim 3, in which many scenarios of the control sequence are run simultaneously. 6. The method according to claim 3, in which the scenario of the control sequence performs an operation selected from the group including the operation of lowering into the well, monitoring the mechanical speed of penetration, monitoring the pressure of the hydraulic fracturing, controlling directional drilling, drilling the section, sliding operation and fishing operation. 7. The method according to claim 1, in which the model of the drilling process contains a model of formations. 8. The method according to claim 1, in which the model of the drilling process contains a hydraulic model. 9. The method according to claim 1, in which when measuring the drilling conditions, a measurement is performed to evaluate the formation parameters. 10. The method according to claim 1, in which during the update operation additionally update the model of the drilling process based on the operational data of the ground equipment received from the control system of ground equipment. 11. The method according to claim 1, in which additionally carry out the operation of automatic control of ground equipment based on optimal drilling parameters. 12. A well drilling system for determining optimal operating levels for the operation of ground-based drilling equipment, comprising an interface of a ground-based equipment control system for communicating with a ground-based equipment control system; drill pipe string for drilling a wellbore; many measuring instruments located on the drill pipe string to obtain the results of downhole measurements while working in the well; a downhole processing system containing programmed instructions stored in the memory, and the system, when executed, is configured to build a model of the drilling process, representing the interaction of the conditions in the bottom hole with the work of the drill pipe string; updating the model of the drilling process based on the results of downhole measurements; determination of the set of optimal drilling parameters based on an updated model of the drilling process; transmitting data on optimal drilling parameters to the ground control system; and repeatedly repeating update, definition, and transmission operations during work in the well. 13. The well drilling system of claim 12, wherein the model building operation further comprises populating a model of the drilling process with parameters representing the geology of the formation surrounding the wellbore. 14. The well drilling system of claim 12, wherein the data transfer operation further comprises determining a drilling mode; and executing a control sequence scenario based on the drilling mode. 15. The well drilling system of claim 14, wherein the data transfer operation comprises transmitting output data of a control sequence script to a ground control system. 16. The well drilling system of claim 14, wherein the plurality of control sequence scenarios are run simultaneously. 17. The well drilling system of claim 14, wherein the control sequence scenario performs an operation selected from the group including the descent into the well, monitoring the mechanical speed of the penetration, monitoring the pressure of the hydraulic fracturing, directional drilling, drilling the section, sliding operation and fishing operation. 18. The well drilling system of claim 12, wherein the drilling process model comprises a formation model. 19. The well drilling system of claim 12, wherein the model of the drilling process comprises a hydraulic model. 20. The well drilling system of claim 12, wherein the measurements of the drilling conditions comprise measurements according to the evaluation of the formation parameters. 21. The well drilling system of claim 12, wherein the update operation further comprises updating the drilling process model based on ground equipment operating data received from the ground equipment control system. 22. The well drilling system of claim 12, wherein the processor is configured to automatically control ground equipment based on optimal drilling parameters. 23. The well drilling system of claim 12, further comprising an interface of the ground control system for receiving and transmitting data between the ground control system and the downhole processing system.