Wellbore stability : principles and analysis in geothermal well drilling
Drilling a stable geothermal well that experiences least drilling challenges is key to delivering a successful well that meets the set objective of either being a production or reinjection well. Wellbore instabilities encountered during drilling can add to the overall cost of the well by consumption...
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ftskemman:oai:skemman.is:1946/31411 2023-05-15T16:52:50+02:00 Wellbore stability : principles and analysis in geothermal well drilling Ikinya, Nganga Samuel, 1976- Háskólinn í Reykjavík 2018-06 application/pdf http://hdl.handle.net/1946/31411 en eng http://hdl.handle.net/1946/31411 Orkuverkfræði Meistaraprófsritgerðir Jarðhiti Jarðboranir Tækni- og verkfræðideild Sustainable energy engineering Geothermal energy Drilling (geology) School of Science and Engineering Thesis Master's 2018 ftskemman 2022-12-11T06:58:49Z Drilling a stable geothermal well that experiences least drilling challenges is key to delivering a successful well that meets the set objective of either being a production or reinjection well. Wellbore instabilities encountered during drilling can add to the overall cost of the well by consumption of more materials and extension of well completion time. Olkaria geothermal field in Kenya is a high temperature field and wells are designed with 20" Surface Casing, 13⅜" Anchor Casing, 9⅝" Production Casing and the production section is lined with 7" perforated Liner. Drilling progress is affected by various downhole challenges such as loss of drilling fluid circulation and borehole wall collapse that lead to stuck drilling string, problems in landing casings and liners and in extreme cases loss of irretrievable part of drill string and abandonment of the well. Well sections with less drilling problems affecting drilling progress have high percentage of time spent on drilling activity but wells that encountered downhole challenges have less drilling time compared to other activities that do not add to the well depth. Geothermal wells in Olkaria at well pad OW-731 and well RN-33 in Reykjanes Iceland have been used in this report. Reassessment of minimum casing setting depths for 3000 m deep Olkaria wells was made according to the The African Union Code of Practice for Geothermal Drilling (2016). The criteria applied for this report was for the formation temperature and pressure to follow the boiling pressure for depth (BPD) curve based on a water level at 700 m and the effective containment pressure resulting to a vertical Production Casing depth of 1450 m. The pressure pivot point is lacking in the directional well indicating need for a deeper production casing setting depth. Minimum stress〖 S〗_h calculated using Eaton´s formula and overburden stress S_v form the maximum and minimum field stresses used to calculate effective hoop, radial and vertical stresses on the wellbore wall. Maximum compressive hoop stress ... Thesis Iceland Skemman (Iceland) Reykjanes ENVELOPE(-22.250,-22.250,65.467,65.467) Pivot ENVELOPE(-30.239,-30.239,-80.667,-80.667) |
institution |
Open Polar |
collection |
Skemman (Iceland) |
op_collection_id |
ftskemman |
language |
English |
topic |
Orkuverkfræði Meistaraprófsritgerðir Jarðhiti Jarðboranir Tækni- og verkfræðideild Sustainable energy engineering Geothermal energy Drilling (geology) School of Science and Engineering |
spellingShingle |
Orkuverkfræði Meistaraprófsritgerðir Jarðhiti Jarðboranir Tækni- og verkfræðideild Sustainable energy engineering Geothermal energy Drilling (geology) School of Science and Engineering Ikinya, Nganga Samuel, 1976- Wellbore stability : principles and analysis in geothermal well drilling |
topic_facet |
Orkuverkfræði Meistaraprófsritgerðir Jarðhiti Jarðboranir Tækni- og verkfræðideild Sustainable energy engineering Geothermal energy Drilling (geology) School of Science and Engineering |
description |
Drilling a stable geothermal well that experiences least drilling challenges is key to delivering a successful well that meets the set objective of either being a production or reinjection well. Wellbore instabilities encountered during drilling can add to the overall cost of the well by consumption of more materials and extension of well completion time. Olkaria geothermal field in Kenya is a high temperature field and wells are designed with 20" Surface Casing, 13⅜" Anchor Casing, 9⅝" Production Casing and the production section is lined with 7" perforated Liner. Drilling progress is affected by various downhole challenges such as loss of drilling fluid circulation and borehole wall collapse that lead to stuck drilling string, problems in landing casings and liners and in extreme cases loss of irretrievable part of drill string and abandonment of the well. Well sections with less drilling problems affecting drilling progress have high percentage of time spent on drilling activity but wells that encountered downhole challenges have less drilling time compared to other activities that do not add to the well depth. Geothermal wells in Olkaria at well pad OW-731 and well RN-33 in Reykjanes Iceland have been used in this report. Reassessment of minimum casing setting depths for 3000 m deep Olkaria wells was made according to the The African Union Code of Practice for Geothermal Drilling (2016). The criteria applied for this report was for the formation temperature and pressure to follow the boiling pressure for depth (BPD) curve based on a water level at 700 m and the effective containment pressure resulting to a vertical Production Casing depth of 1450 m. The pressure pivot point is lacking in the directional well indicating need for a deeper production casing setting depth. Minimum stress〖 S〗_h calculated using Eaton´s formula and overburden stress S_v form the maximum and minimum field stresses used to calculate effective hoop, radial and vertical stresses on the wellbore wall. Maximum compressive hoop stress ... |
author2 |
Háskólinn í Reykjavík |
format |
Thesis |
author |
Ikinya, Nganga Samuel, 1976- |
author_facet |
Ikinya, Nganga Samuel, 1976- |
author_sort |
Ikinya, Nganga Samuel, 1976- |
title |
Wellbore stability : principles and analysis in geothermal well drilling |
title_short |
Wellbore stability : principles and analysis in geothermal well drilling |
title_full |
Wellbore stability : principles and analysis in geothermal well drilling |
title_fullStr |
Wellbore stability : principles and analysis in geothermal well drilling |
title_full_unstemmed |
Wellbore stability : principles and analysis in geothermal well drilling |
title_sort |
wellbore stability : principles and analysis in geothermal well drilling |
publishDate |
2018 |
url |
http://hdl.handle.net/1946/31411 |
long_lat |
ENVELOPE(-22.250,-22.250,65.467,65.467) ENVELOPE(-30.239,-30.239,-80.667,-80.667) |
geographic |
Reykjanes Pivot |
geographic_facet |
Reykjanes Pivot |
genre |
Iceland |
genre_facet |
Iceland |
op_relation |
http://hdl.handle.net/1946/31411 |
_version_ |
1766043265610547200 |