Topic
Workover
About: Workover is a research topic. Over the lifetime, 1275 publications have been published within this topic receiving 8763 citations.
Papers published on a yearly basis
1 / 2
Papers
TL;DR: In this paper, the authors present an analytical model for the flowing fluid temperature in the drillpipe/tubing and in the annulus as a function of well depth and circulation time.
Abstract: Estimation of fluid temperature in both flow conduits (drillpipe or tubing and the annulus) is required to ascertain the fluid density and viscosity and, in turn, to calculate the pressure drop or the maximum allowable pumping rate for a number of operations. These operations include drilling, workover, and well control. The fluid temperature estimation becomes critical for high-temperature or geothermal reservoirs where significant heat exchange occurs or when fluid properties are temperature sensitive, such as for a non-Newtonian fluid. In this work, the authors present an analytical model for the flowing fluid temperature in the drillpipe/tubing and in the annulus as a function of well depth and circulation time. The model is based on an energy balance between the formation and the fluid in the drillpipe.tubing and annulus. Steady-state heat transfer is assumed in the wellbore while transient heat transfer takes place in the formation. solutions are obtained for two possible scenarios: (1) the fluid flows down the annulus and up the drillpipe/tubing, and (2) the fluid flows down the tubing and up the annulus. The analytic model developed is cast in a set of simple algebraic equations for rapid implementation. The authors also show that the maximum temperature occursmore » not at the well bottom, but at some distance higher from the bottom for flow up the annulus.« less
229 citations
Patent•
[...]
11 Dec 2002
TL;DR: In this paper, a wellbore treatment fluid that comprises polyol, polysaccharide, weighting agent, and water was proposed to increase the thermal stability of wellbores.
Abstract: This invention relates to a wellbore treatment fluid and a method of enhancing wellbore treatment fluids to increase efficiency and productivity of wells. More specifically this invention provides methods for enhancing the thermal stability of wellbore treatment fluids such as drill-in, completion, workover, packer, well treating, testing, spacer or hole abandonment fluids. The methods include providing a wellbore treatment fluid that comprises polyol, polysaccharide, weighting agent, and water, wherein the fluid is solids free.
153 citations
Patent•
25 Oct 1994
TL;DR: A coiled tubing completion system is provided with a plurality of completion apparatus, all of which is designed flush with the diameter of the coiled tube outside diameter for avoiding upsets and having through bores large enough to pass wireline tools for performing other operations.
Abstract: A coiled tubing completion system is provided with a plurality of completion apparatus, all of which is designed flush with the diameter of the coiled tubing outside diameter for avoiding upsets and are flexible, spoolable on a coiled tubing reel and having through bores large enough to pass wireline tools for performing other operations. The spoolable coiled tubing system may use standard coiled tubing well control equipment and can be used in live wells. The flush, flexible, spoolable and through bore completion equipment may include a tubing retrievable safety valve, an annular control valve, concentric gas lift valves, a zone packer, a landing nipple, a sliding sleeve, and may include at the end a non-flexible but flush and open bore production packer and pump out plug. The completion system may be retrieved through a retrieval system.
147 citations
Patent•
28 Mar 1996TL;DR: In this paper, an apparatus and method for obtaining samples of pristine formation fluid, using a work string (6) designed for performing other downhole work such as drilling, workover operations, or re-entry operations.
Abstract: An apparatus and method are disclosed for obtaining samples of pristine formation fluid, using a work string (6) designed for performing other downhole work such as drilling, workover operations, or re-entry operations. An extendable element (24, 26, 45) extends against the formation wall to obtain the pristine fluid sample. While the test tool (16) is in a standby condition, the extendable element (24, 26, 45) is withdrawn within the work string, protected by other structure from damage during operation of the work string (6). The apparatus is used to sense downhole conditions while using a work string (6), and the measurements taken can be used to adjust working fluid properties without withdrawing the work string (6) from the bore hole (4). When the extendable element (24, 26, 45) is a packer (24, 26), the apparatus can be used to prevent a kick from reaching the surface, adjust the density of the drilling fluid, and thereafter continuing use of the work string.
143 citations
Patent•
30 Apr 1999TL;DR: In this paper, an apparatus and method for obtaining samples of pristine formation or formation fluid, using a work string designed for performing other downhole work such as drilling, workover operations, or re-entry operations.
Abstract: An apparatus and method for obtaining samples of pristine formation or formation fluid, using a work string designed for performing other downhole work such as drilling, workover operations, or re-entry operations. An extendable element extends against the formation wall to obtain the pristine formation or fluid sample. While the test tool is in a standby condition, the extendable element is withdrawn within the work string, protected by other structure from damage during operation of the work string. The test apparatus is mounted on a sliding, non-rotating, sleeve on the work string.
135 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2025 | 15 |
| 2024 | 45 |
| 2023 | 106 |
| 2022 | 152 |
| 2021 | 25 |
| 2020 | 36 |