Identification of potential candidates for Linear Rod Pump (LRP) applications in OMV PETROM and definition of standard LRP types
Research output: Thesis › Master's Thesis
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2013.
Research output: Thesis › Master's Thesis
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TY - THES
T1 - Identification of potential candidates for Linear Rod Pump (LRP) applications in OMV PETROM and definition of standard LRP types
AU - Abdalla, Hannes
N1 - embargoed until 03-12-2018
PY - 2013
Y1 - 2013
N2 - When selecting an artificial lift system (ALS), special emphasis has to be given to operating range, well location, subsurface conditions, productivity of the well, run life of the pump and production costs. OMV PETROM operates approximately 7500 wells of which about 163 wells are produced with the Linear Rod Pump(LRP). The LRP is a relatively new artificial lift technology which could become an innovative alternative to the conventional beam pumping unit due to its numerous benefits. In the near future application of LRP could be extended in Romania assuming that LRP characteristics suit specific well features. Therefore the objective of this thesis is to screen all PETROM Oil Wells for potential LRP application and to recommend in which wells the LRP should be utilized in the future. Having done that, the final step of the thesis consists of a standardization proposal for LRP types that are recommended to be used. The thesis begins with outlining the benefits and limitations of the LRP, the linear rod pump is compared to other pumping unit systems in order to define under which conditions the LRP should be utilized and which are the selection criteria of LRP application in PETROM. Another important part of the thesis deals with input of data for pumping unit systems into QROD, which is a practical beam pumping design simulator, in order to create boundary conditions based on depth and pump displacement for each pumping unit system model. Moreover, a well data screening of defined cases suitable for LRP application, based on the criteria mentioned above, was performed in order to first screen all wells for LRP application and secondly to propose an LRP standardization for these wells. This project has been carried out in cooperation with the Production System Optimization Department of the E&P division in OMV PETROM SA in Bucharest which provided me the employed software, valuable input, and access to PETROMs “best practices” documentation. Further information has been taken from SPE papers, technical books, journals and the internet. The used sources have been stated using the IEEE 2006 style for citation. When referring to PETROM in this thesis the reference is made to OMV PETROM SA.
AB - When selecting an artificial lift system (ALS), special emphasis has to be given to operating range, well location, subsurface conditions, productivity of the well, run life of the pump and production costs. OMV PETROM operates approximately 7500 wells of which about 163 wells are produced with the Linear Rod Pump(LRP). The LRP is a relatively new artificial lift technology which could become an innovative alternative to the conventional beam pumping unit due to its numerous benefits. In the near future application of LRP could be extended in Romania assuming that LRP characteristics suit specific well features. Therefore the objective of this thesis is to screen all PETROM Oil Wells for potential LRP application and to recommend in which wells the LRP should be utilized in the future. Having done that, the final step of the thesis consists of a standardization proposal for LRP types that are recommended to be used. The thesis begins with outlining the benefits and limitations of the LRP, the linear rod pump is compared to other pumping unit systems in order to define under which conditions the LRP should be utilized and which are the selection criteria of LRP application in PETROM. Another important part of the thesis deals with input of data for pumping unit systems into QROD, which is a practical beam pumping design simulator, in order to create boundary conditions based on depth and pump displacement for each pumping unit system model. Moreover, a well data screening of defined cases suitable for LRP application, based on the criteria mentioned above, was performed in order to first screen all wells for LRP application and secondly to propose an LRP standardization for these wells. This project has been carried out in cooperation with the Production System Optimization Department of the E&P division in OMV PETROM SA in Bucharest which provided me the employed software, valuable input, and access to PETROMs “best practices” documentation. Further information has been taken from SPE papers, technical books, journals and the internet. The used sources have been stated using the IEEE 2006 style for citation. When referring to PETROM in this thesis the reference is made to OMV PETROM SA.
KW - Produktionsbereich
KW - die Lebenserwartung des Pumpsystems
KW - Produktionskosten
KW - Linear Rod Pump
KW - LRP
KW - innovative Alternative
KW - Standardisierung
KW - LRP Modelle
KW - Vor und Nachteile der LRP Technik
KW - Anwendungsbereiche
KW - ALS
KW - operating range
KW - well location
KW - subsurface conditions
KW - productivity of the well
KW - run life of the pump
KW - production costs
KW - Linear Rod Pump
KW - LRP
KW - innovative alternative
KW - screen
KW - Romania
KW - standardization proposal
KW - LRP types
KW - benefits and limitations of the LRP
M3 - Master's Thesis
ER -