Natural gas is an important source of energy used for domestic, industrial and transport purposes. Its presence is unevenly distributed in the world, and its consumption is subject to large seasonal fluctuations. In addressing this challenge, Underground Gas Storage (UGS) represents an important option to create national strategic reserves and helps ensure a steady and reliable supply of natural gas. However, gas storage activities, inducing continuous stress changes, can threaten caprock integrity, possibly resulting in gas leakages. The inherent risks necessitate the development of operational protocols for effectively characterizing and monitoring UGS activities. Interferometric Satellite Aperture Radar (InSAR) data offers a comprehensive site-specific perspective, which proves valuable for enhancing the management of withdrawal and injection rates, as well as assessing environmental impacts near UGS facilities. Its utilization contributes to higher levels of operational reliability and safety.
InSAR analysis of underground gas storage / Fibbi G.; Montalti R.; Del Soldato M.; Uttini A.; Cespa S.; Ferretti A.; Fanti R.. - ELETTRONICO. - 2023-July:(2023), pp. 2378-2381. (Intervento presentato al convegno IGARSS 2023 - 2023 IEEE International Geoscience and Remote Sensing Symposium tenutosi a Pasadena, USA nel 16-21 July 2023) [10.1109/igarss52108.2023.10282551].
InSAR analysis of underground gas storage
Fibbi G.;Del Soldato M.;Fanti R.
2023
Abstract
Natural gas is an important source of energy used for domestic, industrial and transport purposes. Its presence is unevenly distributed in the world, and its consumption is subject to large seasonal fluctuations. In addressing this challenge, Underground Gas Storage (UGS) represents an important option to create national strategic reserves and helps ensure a steady and reliable supply of natural gas. However, gas storage activities, inducing continuous stress changes, can threaten caprock integrity, possibly resulting in gas leakages. The inherent risks necessitate the development of operational protocols for effectively characterizing and monitoring UGS activities. Interferometric Satellite Aperture Radar (InSAR) data offers a comprehensive site-specific perspective, which proves valuable for enhancing the management of withdrawal and injection rates, as well as assessing environmental impacts near UGS facilities. Its utilization contributes to higher levels of operational reliability and safety.
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