Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland

A distributed-parameter numerical model of the Námafjall-Bjarnarflag geothermal reservoir has been developed. Instead of following the most common approach of modeling the wellbores as constant wellbottom pressure sinks, they are modeled as variable wellbottom pressure sinks, with constant wellhead...

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Bibliographic Details
Main Author: Rivera Ayala, Manuel Alejandro, 1979-
Other Authors: Háskóli Íslands
Format: Thesis
Language:English
Published: 2010
Subjects:
Vélaverkfræði
Jarðhitarannsóknir
Hermilíkön
Námafjall
Bjarnarflag
Iceland
Online Access:http://hdl.handle.net/1946/4616
id ftskemman:oai:skemman.is:1946/4616
record_format openpolar
spelling ftskemman:oai:skemman.is:1946/4616 2023-05-15T16:52:22+02:00 Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland Rivera Ayala, Manuel Alejandro, 1979- Háskóli Íslands 2010-03-31T09:44:59Z application/pdf http://hdl.handle.net/1946/4616 en eng http://hdl.handle.net/1946/4616 Vélaverkfræði Jarðhitarannsóknir Hermilíkön Námafjall Thesis Master's 2010 ftskemman 2022-12-11T06:53:22Z A distributed-parameter numerical model of the Námafjall-Bjarnarflag geothermal reservoir has been developed. Instead of following the most common approach of modeling the wellbores as constant wellbottom pressure sinks, they are modeled as variable wellbottom pressure sinks, with constant wellhead pressure, through the use of coupled reservoir-wellbore simulation. The purpose of the work is to study the efficiency of this kind of coupling and to predict the reservoir response to three different exploitation scenarios: 40 MWe, 60 MWe and 90 MWe. The flow of mass and heat in the reservoir is modeled through the theory of non-isothermal multiphase flow in porous media implemented by the TOUGH2 code, and an inverse estimation of reservoir parameters is made through the use of automatic parameter estimation capabilities available in the iTOUGH2 code, using a least-squares objective function and the Levenberg-Marquardt minimization algorithm. The HOLA wellbore simulator is used to model the flow within the wells, and the pre- and post-processing tools were based on Linux Shell scripts using freely available software. The automatic parameter estimation was found very useful in finding a set of parameters which produced a reasonable match with available field data for both the natural state and the production response data. The model derived can be regarded as almost closed, and hence pessimistic since the natural fluid recharge into the reservoir is only 14% to 25% of the extracted mass. For the 90 MWe scenario, simulations predict extended boiling throughout the reservoir, pressure drawdown values close to 44 bar and cooling of 35 to 40 °C around the wells. An average decline rate in electrical output of 7.55 MW/yr is expected and by year 2045, 30 wells will be required to maintain 90 MW electrical production. Differences between 15% and 20% were found in the reservoir electrical output if variations in well bottomhole pressures are taken into account through the use of coupled reservoir-wellbore simulation. The ... Thesis Iceland Skemman (Iceland) Bjarnarflag ENVELOPE(-16.867,-16.867,65.633,65.633) Námafjall ENVELOPE(-16.820,-16.820,65.631,65.631)
institution Open Polar
collection Skemman (Iceland)
op_collection_id ftskemman
language English
topic Vélaverkfræði
Jarðhitarannsóknir
Hermilíkön
Námafjall
spellingShingle Vélaverkfræði
Jarðhitarannsóknir
Hermilíkön
Námafjall
Rivera Ayala, Manuel Alejandro, 1979-
Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
topic_facet Vélaverkfræði
Jarðhitarannsóknir
Hermilíkön
Námafjall
description A distributed-parameter numerical model of the Námafjall-Bjarnarflag geothermal reservoir has been developed. Instead of following the most common approach of modeling the wellbores as constant wellbottom pressure sinks, they are modeled as variable wellbottom pressure sinks, with constant wellhead pressure, through the use of coupled reservoir-wellbore simulation. The purpose of the work is to study the efficiency of this kind of coupling and to predict the reservoir response to three different exploitation scenarios: 40 MWe, 60 MWe and 90 MWe. The flow of mass and heat in the reservoir is modeled through the theory of non-isothermal multiphase flow in porous media implemented by the TOUGH2 code, and an inverse estimation of reservoir parameters is made through the use of automatic parameter estimation capabilities available in the iTOUGH2 code, using a least-squares objective function and the Levenberg-Marquardt minimization algorithm. The HOLA wellbore simulator is used to model the flow within the wells, and the pre- and post-processing tools were based on Linux Shell scripts using freely available software. The automatic parameter estimation was found very useful in finding a set of parameters which produced a reasonable match with available field data for both the natural state and the production response data. The model derived can be regarded as almost closed, and hence pessimistic since the natural fluid recharge into the reservoir is only 14% to 25% of the extracted mass. For the 90 MWe scenario, simulations predict extended boiling throughout the reservoir, pressure drawdown values close to 44 bar and cooling of 35 to 40 °C around the wells. An average decline rate in electrical output of 7.55 MW/yr is expected and by year 2045, 30 wells will be required to maintain 90 MW electrical production. Differences between 15% and 20% were found in the reservoir electrical output if variations in well bottomhole pressures are taken into account through the use of coupled reservoir-wellbore simulation. The ...
author2 Háskóli Íslands
format Thesis
author Rivera Ayala, Manuel Alejandro, 1979-
author_facet Rivera Ayala, Manuel Alejandro, 1979-
author_sort Rivera Ayala, Manuel Alejandro, 1979-
title Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
title_short Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
title_full Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
title_fullStr Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
title_full_unstemmed Coupled geothermal reservoir-wellbore simulation with a case study for the Námafjall field, N-Iceland
title_sort coupled geothermal reservoir-wellbore simulation with a case study for the námafjall field, n-iceland
publishDate 2010
url http://hdl.handle.net/1946/4616
long_lat ENVELOPE(-16.867,-16.867,65.633,65.633)
ENVELOPE(-16.820,-16.820,65.631,65.631)
geographic Bjarnarflag
Námafjall
geographic_facet Bjarnarflag
Námafjall
genre Iceland
genre_facet Iceland
op_relation http://hdl.handle.net/1946/4616
_version_ 1766042569552166912

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