PRODUCTION ACTIVATION AND OPTIMIZATION OF WELL X USING ESP, DESIGNED ON PIPESIM
Abstract
Hydrocarbons use the natural energy of the reservoir to reach the surface. But as we produce, the fields become mature, and the reservoir pressure decreases. The energy in the reservoir is therefore no longer sufficient to bring the hydrocarbons to the surface, or the pressure at the bottom of the well becomes greater than the pressure in the reservoir, which causes considerable reduction in production flow, which can even lead to production stop.
In the oil field, the literature indicates that several artificial techniques have been adopted to activate and increase the production rate of hydrocarbons at the surface. The aim of this work is to design ELECTRICAL SUBMERSIBLE PUMP (ESP) that does not only activate the well, but also optimizes the recovery of hydrocarbons at the surface.
Practical data was provided, with the data an ESP was design not only to activate the well, but also optimizes the recovery of hydrocarbons at the surface. The data are reservoir data, fluid data and well architecture properties. To achieve the objective, it is necessary to carry out a nodal analysis of the non-eruptive well, to design the ESP system.
The evaluation of the system performance as well as the sensitivity analysis will allow the selection of an optimal production rate. All the simulation operations and the well diagram were carried out with PIPESIM 2017.1.
In view of these procedures, it appears that the nodal analysis of the well before the installation of the ESP presents a 245.9016STB /d, after the installation of ESP the flow rate was 2691.225STB/d, and from the sensitivity analysis a ESP frequency of 80 Hz produced a flow rate of 4111.947stb/d. From the economic analysis, it shows that using ESP will be very economical.
Check out: Petroleum Engineering Project Topics with Materials
| Project Details | |
| Department | Petroleum Engineering |
| Project ID | PET0002 |
| Price | Cameroonian: 5000 Frs |
| International: $15 | |
| No of pages | 45 |
| Methodology | Descriptive |
| Reference | yes |
| Format | MS word & PDF |
| Chapters | 1-5 |
| Extra Content | table of content, |
This is a premium project material, to get the complete research project make payment of 5,000FRS (for Cameroonian base clients) and $15 for international base clients. See details on payment page
NB: It’s advisable to contact us before making any form of payment
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PRODUCTION ACTIVATION AND OPTIMIZATION OF WELL X USING ESP, DESIGNED ON PIPESIM
| Project Details | |
| Department | Petroleum Engineering |
| Project ID | PET0002 |
| Price | Cameroonian: 5000 Frs |
| International: $15 | |
| No of pages | 45 |
| Methodology | Descriptive |
| Reference | yes |
| Format | MS word & PDF |
| Chapters | 1-5 |
| Extra Content | table of content, |
Abstract
Hydrocarbons use the natural energy of the reservoir to reach the surface. But as we produce, the fields become mature, and the reservoir pressure decreases. The energy in the reservoir is therefore no longer sufficient to bring the hydrocarbons to the surface, or the pressure at the bottom of the well becomes greater than the pressure in the reservoir, which causes considerable reduction in production flow, which can even lead to production stop.
In the oil field, the literature indicates that several artificial techniques have been adopted to activate and increase the production rate of hydrocarbons at the surface. The aim of this work is to design ELECTRICAL SUBMERSIBLE PUMP (ESP) that does not only activate the well, but also optimizes the recovery of hydrocarbons at the surface.
Practical data was provided, with the data an ESP was design not only to activate the well, but also optimizes the recovery of hydrocarbons at the surface. The data are reservoir data, fluid data and well architecture properties. To achieve the objective, it is necessary to carry out a nodal analysis of the non-eruptive well, to design the ESP system.
The evaluation of the system performance as well as the sensitivity analysis will allow the selection of an optimal production rate. All the simulation operations and the well diagram were carried out with PIPESIM 2017.1.
In view of these procedures, it appears that the nodal analysis of the well before the installation of the ESP presents a 245.9016STB /d, after the installation of ESP the flow rate was 2691.225STB/d, and from the sensitivity analysis a ESP frequency of 80 Hz produced a flow rate of 4111.947stb/d. From the economic analysis, it shows that using ESP will be very economical.
Check out: Petroleum Engineering Project Topics with Materials
This is a premium project material, to get the complete research project make payment of 5,000FRS (for Cameroonian base clients) and $15 for international base clients. See details on payment page
NB: It’s advisable to contact us before making any form of payment
Our Fair use policy
Using our service is LEGAL and IS NOT prohibited by any university/college policies. For more details click here
We’ve been providing support to students, helping them make the most out of their academics, since 2014. The custom academic work that we provide is a powerful tool that will facilitate and boost your coursework, grades, and examination results. Professionalism is at the core of our dealings with clients.
For more project materials and info!
Contact us here
OR
Click on the WhatsApp Button at the bottom left
Email: info@project-house.net
