TY - JOUR

T1 - Ground Movement Control in Energy Transition Areas – Status of the Bilateral German-Polish Project CLEAR

AU - Blachowski, Jan

AU - Benndorf, Jörg

AU - Babaryka, Aleksandra

AU - Gießler, Georg

AU - Glabicki, Dariusz

AU - Grzempowski, Piotr

AU - Kaczmarek, Aleksandra

AU - Kubisch, Frank

AU - Owczarz, Karolina

AU - Ashfaque, Nazibul

AU - Biernat, Stanislaw

N1 - Blachowski, Jan; Benndorf, Jörg; Babaryka, Aleksandra; Gießler, Georg; Głąbicki, Dariusz; Grzempowski, Piotr; Kaczmarek, Aleksandra; Kubisch, Frank; Owczarz, Karolina; Ashfaque, Nazibul, 2024: Ground Movement Control in Energy Transition Areas – Status of the Bilateral German-Polish Project CLEAR. In: Markscheidewesen, 131, 2, 42-55, DOI: https://doi.org/10.23689/fidgeo-6559.

PY - 2024/12

Y1 - 2024/12

N2 - Underground gas storage (UGS) is a vital component of energy security and the transition to renewable energy, utilizing geological formations like depleted reservoirs, aquifers, and salt caverns for storage. Salt caverns, with their low permeability and high ductility, are particularly suitable for storing natural gas, hydrogen, and other fuels. However, UGS operations can cause environmental impacts, such as ground movements, requiring advanced monitoring and management. The CLEAR project, launched in 2022 by TU Bergakademie Freiberg, Wroclaw University of Science and Technology, and industry partners, aims to develop a smart, geoportal-based system for monitoring and managing UGS impacts in rural areas. Key objectives include integrating satellite and terrestrial monitoring, applying machine learning for ground movement prediction, and creating a neural network for impact forecasting. Validated in industrial test areas, the system will provide real-time data analysis and stakeholder-focused impact communication to promote sustainable and socially responsible UGS practices. This article discusses the project's findings.

AB - Underground gas storage (UGS) is a vital component of energy security and the transition to renewable energy, utilizing geological formations like depleted reservoirs, aquifers, and salt caverns for storage. Salt caverns, with their low permeability and high ductility, are particularly suitable for storing natural gas, hydrogen, and other fuels. However, UGS operations can cause environmental impacts, such as ground movements, requiring advanced monitoring and management. The CLEAR project, launched in 2022 by TU Bergakademie Freiberg, Wroclaw University of Science and Technology, and industry partners, aims to develop a smart, geoportal-based system for monitoring and managing UGS impacts in rural areas. Key objectives include integrating satellite and terrestrial monitoring, applying machine learning for ground movement prediction, and creating a neural network for impact forecasting. Validated in industrial test areas, the system will provide real-time data analysis and stakeholder-focused impact communication to promote sustainable and socially responsible UGS practices. This article discusses the project's findings.

KW - Gas cavern

KW - Subsidence prediction

KW - Maschinelles Lernen

KW - Geoportal

KW - Undeground gas storage

KW - closed loop aproach

KW - data integration

KW - Prognose and monitoring von Bodenbewegung

U2 - 10.23689/fidgeo-6559

DO - 10.23689/fidgeo-6559

M3 - Article

VL - 131.2024

SP - 42

EP - 55

JO - Markscheidewesen, Das

JF - Markscheidewesen, Das

SN - 0174-1357

IS - 2

ER -