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Abstrakty
EN
The SHEER database brings together a large amount of data of various types: interdisciplinary site data from seven independent episodes, research data and those for the project results dissemination process. This concerns mainly shale gas exploitation test sites, processing procedures, results of data interpretation and recommendations. The smart SHEER database harmonizes data from different fields (geophysical, geochemical, geological, technological, etc.), creates and provides access to an advanced database of case studies of environmental impact indicators associated with shale gas exploitation and exploration, which previously did not exist. A unique component of the SHEER database comes from the monitoring activity performed during the project in one active shale gas exploration and exploitation site at Wysin, Poland, which started from the pre-operational phase. The SHEER database is capable of the adoption of new data such as results of other Work Packages and has developed an over-arching structure for higher-level integration.
Czasopismo
Rocznik
Strony
291--297
Opis fizyczny
Bibliogr. 13 poz.
Twórcy
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
autor
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
  • KNMI - Royal Netherlands Meteorological Institute, De Bilt, The Netherlands
autor
  • Keele University, Keele, UK
  • Universitŕ degli Studi di Napoli Federico II, Naples, Italy
  • AMRA S.c. a r.l., Naples, Italy
  • Helmholtz-Zentrum Potsdam Deutsches Geo Forschungs Zentrum GFZ, Potsdam Germany
autor
  • Helmholtz-Zentrum Potsdam Deutsches Geo Forschungs Zentrum GFZ, Potsdam Germany
  • Helmholtz-Zentrum Potsdam Deutsches GeoForschungs Zentrum GFZ, Potsdam, Germany
  • RSKW Ltd., Stirling, UK
  • University of Glasgow, Glasgow, UK
  • Institute of Geophysics Polish Academy of Sciences, Warsaw, Poland
Bibliografia
  • 1. Cielesta S, Lasocki S, Leptokaropoulos K, Cesca S (2018) The SHEER approach to shale gas exploration and exploitation associated risks. In: Conference: 7th EAGE workshop on passive seismic, 26–29 March, Krakow, Poland
  • 2. EPOS – IP WP6 and WP7 Teams (2015) ICS-TCS integration: handbook for tCS integration: level-2, EPOS-IP (Horizon2020—Project number: 676564)
  • 3. Gkarlaouni C, Lasocki S, Papadimitriou E, Tsaklidis G (2017) Hurst analysis of seismicity in Corinth rift and Mygdonia graben (Greece). Chaos Soliton Fract 96:30–42
  • 4. Jeffery KG, Bailo D (2014) EPOS: using metadata in geoscience. In: Closs S, Studer R, Garoufallou E, Sicilia MA (eds) Metadata and semantics research. MTSR 2014. Communications in computer and information science, vol 478. Springer, Cham
  • 5. Kocot J, Szepieniec T, Wójcik P, Trzeciak M, Golik M, Grabarczyk T, Siejkowski H, Sterzel M (2014) A framework for domain-specific science gateways. E-science Distrib Comput Infrastruct 8500:130–146. https://doi.org/10.1007/978-3-319-10894-0_10
  • 6. Lasocki S et al (2014) White paper of WG10 “INFRASTRUCTURE FOR GEORESOURCES” Thematic Core Service Anthropogenic Hazard—interactive research infrastructure for solid-earth by S. Lasocki, B. Orlecka-Sikora, J.R. Grasso and the members of EPOS WG10 “Infrastructures For Georesources”. 20 Sep 2014
  • 7. Lasocki S, Orlecka Sikora B, Leptokaropoulos K, Sterzel M, Szepieniec T, Kocot J, Mutke G, Barański A, the IS-EPOS team (2017) IS-EPOS: a digital research space to facilitate integrated approach to anthropogenic seismic hazards. In: Proceedings of the 16th world conference on earthquake engineering, 16WCEE, Santiago, Chile
  • 8. Leptokaropoulos K, Staszek M, Cielesta S, Urban P, Olszewska D, Lizurek G (2017) Time dependent seismic hazard in Bobrek coal mine, Poland, assuming different magnitude distribution estimations. Acta Geophys. https://doi.org/10.1007/s11600-016-0002-9
  • 9. Lizurek G (2017) Full moment tensor inversion as a practical tool in case of discrimination of tectonic and anthropogenic seismicity in Poland. Pure Appl Geophys 174:197–212
  • 10. López-Comino JA, Cesca S, Kriegerowski M, Heimann S, Dahm T, Mirek J, Lasocki S (2017) Monitoring performance using synthetic data for induced microseismicity by hydrofracking at the Wysin site (Poland). Geophys J Int 210:42–55
  • 11. López-Comino JA, Cesca S, Jarosławski J, Montcoudiol N, Heimann S, Dahm T, Lasocki S, Gunning A, Capuano P, Ellsworth WL (2018) Induced seismicity response of hydraulic fracturing: results of a multidisciplinary monitoring at the Wysin site, Poland. Sci Rep. https://doi.org/10.1038/s41598-018-26970-9
  • 12. Rudziński Ł, Dineva S (2017) Towards energy magnitude for mining induced seismicity. In: Proceedings of the 9th international symposium on rockbursts and seismicity in Mines, RaSiM9, Santiago, Chile
  • 13. Rudziński Ł, Lasocki S, Orlecka-Sikora B, Szepieniec T, Leptokaropoulos K, Garcia-Aristizabal A, Grasso J-R, Kwiatek G, IS-EPOS and EPOS-IP teams (2017) IS-EPOS platform for anthropogenic seismicity research: a modern e-tool of EPOS Thematic Core Service “Anthropogenic Hazards”, designed to integrate infrastructures and facilitate research of human induced seismicity. In: Vallejos JA (ed) Proceedings of the 9th international symposium on rockbursts and seismicity in mines—RaSiM9, Nov 15–17, Santiago, Chile. Editec S.A., Santiago, Chile, pp 15–22
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9c5269e3-8862-422f-be43-25538261f621
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