Analysis and Simulation of a High-Performance Wire and Fibre Rope as Continuous Sucker Rod String

Research output: ThesisMaster's Thesis

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@mastersthesis{245f1978b33d41a9b5ef73efb8d40b56,
title = "Analysis and Simulation of a High-Performance Wire and Fibre Rope as Continuous Sucker Rod String",
abstract = "Sucker rod pumping is the most common type of artificial lift systems deployed in oil and gas wells to improve production. The sucker rod string, which is the component that transfers the reciprocating movement of the surface polished rod to the downhole pump plunger, is the source of many operational complications. From damaged rods and unscrewed couplings to time-consuming rod attachment/detachment procedures, the influence of these failures on the operational costs is substantial. Hence, continuous strings like wire ropes and synthetic ropes can be a convenient replacement for the conventional rod string. In this work, the performance of a wire rope, designed by Voestalpine Company as well as a Dyneema{\textregistered} fiber rope designed by DSM are analyzed and simulated with a computer software package. The results prove that the efficiency of both designs highly depend on the geometry of the well, type of the pump and the surface structure. They also show that pumping with wire or fiber ropes can be just as productive, or surpasses the efficiency of a conventional sucker rod string as long as certain measures, such as material tensile strength and pumping SPM, are taken into advisement.",
keywords = "Sucker-rod pumpen, Artificial Lift systemen, Polished Rod, Untergrundplunger, Drahtseile, synthetische Seile, Zugfestigkeit, Pumpenanschl{\"a}ge, sucker rod pumping, artificial lift systems, polished rod, pump plunger, wire rope, synthetic rope, tensile strength, SPM, continuous rod string",
author = "{Fazeli Tehrani}, Fatemeh",
note = "embargoed until null",
year = "2016",
language = "English",

}

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TY - THES

T1 - Analysis and Simulation of a High-Performance Wire and Fibre Rope as Continuous Sucker Rod String

AU - Fazeli Tehrani, Fatemeh

N1 - embargoed until null

PY - 2016

Y1 - 2016

N2 - Sucker rod pumping is the most common type of artificial lift systems deployed in oil and gas wells to improve production. The sucker rod string, which is the component that transfers the reciprocating movement of the surface polished rod to the downhole pump plunger, is the source of many operational complications. From damaged rods and unscrewed couplings to time-consuming rod attachment/detachment procedures, the influence of these failures on the operational costs is substantial. Hence, continuous strings like wire ropes and synthetic ropes can be a convenient replacement for the conventional rod string. In this work, the performance of a wire rope, designed by Voestalpine Company as well as a Dyneema® fiber rope designed by DSM are analyzed and simulated with a computer software package. The results prove that the efficiency of both designs highly depend on the geometry of the well, type of the pump and the surface structure. They also show that pumping with wire or fiber ropes can be just as productive, or surpasses the efficiency of a conventional sucker rod string as long as certain measures, such as material tensile strength and pumping SPM, are taken into advisement.

AB - Sucker rod pumping is the most common type of artificial lift systems deployed in oil and gas wells to improve production. The sucker rod string, which is the component that transfers the reciprocating movement of the surface polished rod to the downhole pump plunger, is the source of many operational complications. From damaged rods and unscrewed couplings to time-consuming rod attachment/detachment procedures, the influence of these failures on the operational costs is substantial. Hence, continuous strings like wire ropes and synthetic ropes can be a convenient replacement for the conventional rod string. In this work, the performance of a wire rope, designed by Voestalpine Company as well as a Dyneema® fiber rope designed by DSM are analyzed and simulated with a computer software package. The results prove that the efficiency of both designs highly depend on the geometry of the well, type of the pump and the surface structure. They also show that pumping with wire or fiber ropes can be just as productive, or surpasses the efficiency of a conventional sucker rod string as long as certain measures, such as material tensile strength and pumping SPM, are taken into advisement.

KW - Sucker-rod pumpen

KW - Artificial Lift systemen

KW - Polished Rod

KW - Untergrundplunger

KW - Drahtseile

KW - synthetische Seile

KW - Zugfestigkeit

KW - Pumpenanschläge

KW - sucker rod pumping

KW - artificial lift systems

KW - polished rod

KW - pump plunger

KW - wire rope

KW - synthetic rope

KW - tensile strength

KW - SPM

KW - continuous rod string

M3 - Master's Thesis

ER -