Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin

Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin

Important factors controlling the effective utilization of geothermal energy are favorable reservoir properties of rock formations, which determine both the availability and the transfer opportunities of reservoir fluids. Hence, crucial to the successful utilization of a given reservoir is the preli...

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Main Authors: Kacper Domagała, Tomasz Maćkowski, Michał Stefaniuk, Beata Reicher
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Energies
Subjects:
Baltic Basin
geothermal energy
reservoir parameters
petrophysical modelling
mechanical compaction
chemical compaction
Online Access:https://www.mdpi.com/1996-1073/14/13/3942
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spelling doaj-6c3e3f6f30634f8d99bb93a7986b07fc2021-07-15T15:33:29ZengMDPI AGEnergies1996-10732021-07-01143942394210.3390/en14133942Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic BasinKacper Domagała0Tomasz Maćkowski1Michał Stefaniuk2Beata Reicher3Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Av., 30-059 Kraków, PolandFaculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Av., 30-059 Kraków, PolandFaculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Av., 30-059 Kraków, PolandFaculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Mickiewicza 30 Av., 30-059 Kraków, PolandImportant factors controlling the effective utilization of geothermal energy are favorable reservoir properties of rock formations, which determine both the availability and the transfer opportunities of reservoir fluids. Hence, crucial to the successful utilization of a given reservoir is the preliminary recognition of distribution of reservoir parameters as it enables the researchers to select the prospective areas for localization of future geothermal installations and to decide on their characters. The objectives of this paper are analyses and discussion of the properties of quartz sandstones buried down to a depth interval from about 3000 to under 5000 m below surface. These sandstones belong to Ediacaran–Lowery Cambrian Łeba, Kluki and Żarnowiec formations. The source data from the Słupsk IG-1 provided the basis for 1D reconstruction of burial depth and paleothermal conditions as well as enabled the authors to validate of the results of 2D models. Then, porosity distribution within the reservoir formation was determined using the modelings of both the mechanical and chemical compactions along the 70 km-long B’-B part of the A’-A cross-section Bornholm-Słupsk IG-1 well. The results confirmed the low porosities and permeabilities as well as high temperatures of the analyzed rock formations in the Słupsk IG-1 well area. Towards the coast of the Baltic Sea, the porosity increases to more than 5%, while the temperature decreases, but is still relatively high, at about 130 °C. This suggests the application of an enhanced geothermal system or hot dry rocks system as principal methods for using geothermal energy.https://www.mdpi.com/1996-1073/14/13/3942Baltic Basingeothermal energyreservoir parameterspetrophysical modellingmechanical compactionchemical compaction
collection DOAJ
language English
format Article
sources DOAJ
author Kacper Domagała
Tomasz Maćkowski
Michał Stefaniuk
Beata Reicher
spellingShingle Kacper Domagała
Tomasz Maćkowski
Michał Stefaniuk
Beata Reicher
Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
Energies
Baltic Basin
geothermal energy
reservoir parameters
petrophysical modelling
mechanical compaction
chemical compaction
author_facet Kacper Domagała
Tomasz Maćkowski
Michał Stefaniuk
Beata Reicher
author_sort Kacper Domagała
title Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
title_short Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
title_full Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
title_fullStr Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
title_full_unstemmed Prediction of Reservoir Parameters of Cambrian Sandstones Using Petrophysical Modelling—Geothermal Potential Study of Polish Mainland Part of the Baltic Basin
title_sort prediction of reservoir parameters of cambrian sandstones using petrophysical modelling—geothermal potential study of polish mainland part of the baltic basin
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-07-01
description Important factors controlling the effective utilization of geothermal energy are favorable reservoir properties of rock formations, which determine both the availability and the transfer opportunities of reservoir fluids. Hence, crucial to the successful utilization of a given reservoir is the preliminary recognition of distribution of reservoir parameters as it enables the researchers to select the prospective areas for localization of future geothermal installations and to decide on their characters. The objectives of this paper are analyses and discussion of the properties of quartz sandstones buried down to a depth interval from about 3000 to under 5000 m below surface. These sandstones belong to Ediacaran–Lowery Cambrian Łeba, Kluki and Żarnowiec formations. The source data from the Słupsk IG-1 provided the basis for 1D reconstruction of burial depth and paleothermal conditions as well as enabled the authors to validate of the results of 2D models. Then, porosity distribution within the reservoir formation was determined using the modelings of both the mechanical and chemical compactions along the 70 km-long B’-B part of the A’-A cross-section Bornholm-Słupsk IG-1 well. The results confirmed the low porosities and permeabilities as well as high temperatures of the analyzed rock formations in the Słupsk IG-1 well area. Towards the coast of the Baltic Sea, the porosity increases to more than 5%, while the temperature decreases, but is still relatively high, at about 130 °C. This suggests the application of an enhanced geothermal system or hot dry rocks system as principal methods for using geothermal energy.
topic Baltic Basin
geothermal energy
reservoir parameters
petrophysical modelling
mechanical compaction
chemical compaction
url https://www.mdpi.com/1996-1073/14/13/3942
work_keys_str_mv AT kacperdomagała predictionofreservoirparametersofcambriansandstonesusingpetrophysicalmodellinggeothermalpotentialstudyofpolishmainlandpartofthebalticbasin
AT tomaszmackowski predictionofreservoirparametersofcambriansandstonesusingpetrophysicalmodellinggeothermalpotentialstudyofpolishmainlandpartofthebalticbasin
AT michałstefaniuk predictionofreservoirparametersofcambriansandstonesusingpetrophysicalmodellinggeothermalpotentialstudyofpolishmainlandpartofthebalticbasin
AT beatareicher predictionofreservoirparametersofcambriansandstonesusingpetrophysicalmodellinggeothermalpotentialstudyofpolishmainlandpartofthebalticbasin
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