| Energy Exploration & Exploitation | |
| Modelling flow for finite conductivity in long horizontal oil wells | |
| Advances & Challenges of Unconventional Oil/Gas | |
| Ayokunle Ayinde1 Olusegun Tomomewo2 Rasouli Vamegh2 Ling Kegang2 Adesina Fadairo3 George N Iwenjora4 | |
| [1] Chevron Oil Company, Nigeria;Department of Petroleum Engineering, University of North Dakota, ND, USA;Department of Petroleum Engineering, University of North Dakota, ND, USA;Department of Petroleum Engineering, Covenant University, Nigeria;WEAFRI Well Services Company, Kuwait; | |
| 关键词: Oil wells; long horizontal wells; flow phenomena; pressure transverse; unsteadiness flow regime; | |
| DOI : 10.1177/0144598721998497 | |
| 来源: Sage Journals | |
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【 摘 要 】
The impact of neglected well bore pressure losses due to fluid accumulation and kinetic energy in the fundamental energy equation used for derivation of flowing bottom-hole pressure in horizontal well have been conceived to be a considerable reason for the discrepancy between computed rates from the existing models and actual rates got from production tests. In the study, a new model that investigate all possible well bore pressure losses effect on the production rate of a horizontal oil well have been established. The newly developed model has been validated using the field data obtained from the literature and outcome got from the new model yields more satisfactory results. A more realistic results that evident all flow phenomena in petroleum production well include the initial unsteady, pseudo-steady and steady state flow condition hence flow rate at any given production time has been established for flow of oil along horizontal production well. The concept is useful to estimate flowing bottom-hole pressure and analyze its effect on production rate value of a horizontal oil well without ignoring any pressure resisting terms in the governing thermodynamic equation. The unsteadiness fluid flow period that generally observed after shut in a well have also been demonstrated. Closer agreement between the results obtained using the newly developed model and real life field measurement was observed when compared with the previous model in the literature. The study gives reservoir engineer an exact and helpful device for estimating and assessing horizontal oil well production rate.
【 授权许可】
CC BY
© The Author(s) 2021
【 预 览 】
| Files | Size | Format | View |
|---|---|---|---|
| RO202212208232402ZK.pdf | 1890KB |  download |
|
| Figure 1. | 143KB | Image | download |
| Figure 2. | 92KB | Image | download |
| Figure 3. | 137KB | Image | download |
| Figure 4. | 151KB | Image | download |
| Table 1. | 121KB | Table | download |
| Table 2. | 52KB | Table | download |
| 10.1177_0144598721998497-table3.jpg | 67KB | Table | download |
【 图 表 】
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