Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature
Casing, with its two main elements: casing setting depth and casing design, is one of well barrier elements playing a significant role for geothermal well integrity. All of the internal and external loads experienced by the casing from its installation into the well until the end phase of well, call...
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2020-11-01
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| Series: | Energy Reports |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S235248471930352X |
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doaj-f50861e787654635949f7081e496e8872020-12-23T05:00:42ZengElsevierEnergy Reports2352-48472020-11-016582593Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperatureB.T.H. Marbun0R.H. Ridwan1H.S. Nugraha2S.Z. Sinaga3B.A. Purbantanu4Petroleum Engineering Study Program, Bandung Institute of Technology, Indonesia; Correspondence to: Jalan Ganesha 10, Bandung 40132, Indonesia.PT Geo Dipa Energi, Jakarta, IndonesiaDirectorate General of New and Renewable Energy and Energy Conservation of the Ministry of Energy and Mineral Resources, IndonesiaPetroleum Engineering Study Program, Bandung Institute of Technology, IndonesiaPetroleum Engineering Study Program, Bandung Institute of Technology, IndonesiaCasing, with its two main elements: casing setting depth and casing design, is one of well barrier elements playing a significant role for geothermal well integrity. All of the internal and external loads experienced by the casing from its installation into the well until the end phase of well, called plug and abandonment, have to be calculated precisely. Moreover, the casing must be able to withstand the geothermal environment: high-temperature, high-strength rock, highly-fractured formation, corrosive fluid, and under-saturated pressure. Therefore, the casing specification can be properly determined based on the technical and economic considerations to achieve a high quality of well integrity and endurance starting from drilling and completion, production, maintenance (well intervention, and workover), conversion into an injection well or vice-versa, and plug and abandon (P&A).This research study discussed the production well HCE29 in Dieng Field, Indonesia, characterized by a water-dominated geothermal system with temperature of up to 330 °C and pressure of up to 19.4 MPa. After the well was drilled and completed, the casing failure was identified. This study consisted of analysis and re-calculation of this well at the phases of drilling, completion, production, and maintenance to improve the casing setting depth and design method. The results show that the casing failure occurred in this well. In addition, this study improved the Philippines’ method used for re-calculation of casing setting depth and the casing design evaluation method.http://www.sciencedirect.com/science/article/pii/S235248471930352XCasing designCasing setting depthGeothermal production wellWater-dominated geothermal reservoir |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
B.T.H. Marbun R.H. Ridwan H.S. Nugraha S.Z. Sinaga B.A. Purbantanu |
| spellingShingle |
B.T.H. Marbun R.H. Ridwan H.S. Nugraha S.Z. Sinaga B.A. Purbantanu Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature Energy Reports Casing design Casing setting depth Geothermal production well Water-dominated geothermal reservoir |
| author_facet |
B.T.H. Marbun R.H. Ridwan H.S. Nugraha S.Z. Sinaga B.A. Purbantanu |
| author_sort |
B.T.H. Marbun |
| title |
Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature |
| title_short |
Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature |
| title_full |
Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature |
| title_fullStr |
Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature |
| title_full_unstemmed |
Casing setting depth and design of production well in water-dominated geothermal system with 330 °C reservoir temperature |
| title_sort |
casing setting depth and design of production well in water-dominated geothermal system with 330 °c reservoir temperature |
| publisher |
Elsevier |
| series |
Energy Reports |
| issn |
2352-4847 |
| publishDate |
2020-11-01 |
| description |
Casing, with its two main elements: casing setting depth and casing design, is one of well barrier elements playing a significant role for geothermal well integrity. All of the internal and external loads experienced by the casing from its installation into the well until the end phase of well, called plug and abandonment, have to be calculated precisely. Moreover, the casing must be able to withstand the geothermal environment: high-temperature, high-strength rock, highly-fractured formation, corrosive fluid, and under-saturated pressure. Therefore, the casing specification can be properly determined based on the technical and economic considerations to achieve a high quality of well integrity and endurance starting from drilling and completion, production, maintenance (well intervention, and workover), conversion into an injection well or vice-versa, and plug and abandon (P&A).This research study discussed the production well HCE29 in Dieng Field, Indonesia, characterized by a water-dominated geothermal system with temperature of up to 330 °C and pressure of up to 19.4 MPa. After the well was drilled and completed, the casing failure was identified. This study consisted of analysis and re-calculation of this well at the phases of drilling, completion, production, and maintenance to improve the casing setting depth and design method. The results show that the casing failure occurred in this well. In addition, this study improved the Philippines’ method used for re-calculation of casing setting depth and the casing design evaluation method. |
| topic |
Casing design Casing setting depth Geothermal production well Water-dominated geothermal reservoir |
| url |
http://www.sciencedirect.com/science/article/pii/S235248471930352X |
| work_keys_str_mv |
AT bthmarbun casingsettingdepthanddesignofproductionwellinwaterdominatedgeothermalsystemwith330creservoirtemperature AT rhridwan casingsettingdepthanddesignofproductionwellinwaterdominatedgeothermalsystemwith330creservoirtemperature AT hsnugraha casingsettingdepthanddesignofproductionwellinwaterdominatedgeothermalsystemwith330creservoirtemperature AT szsinaga casingsettingdepthanddesignofproductionwellinwaterdominatedgeothermalsystemwith330creservoirtemperature AT bapurbantanu casingsettingdepthanddesignofproductionwellinwaterdominatedgeothermalsystemwith330creservoirtemperature |
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