PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Relative amplitude preservation in high‑resolution shallow reflection seismic: a case study from Fore‑Sudetic Monocline, Poland

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The acquisition parameters and methodology of seismic data processing for high-resolution seismic imaging viewed through relative amplitude preservation are presented. An example of the obtaining of high-quality, shallow seismic data with a variable end-on spread is shown. The source used for the project is an accelerated weight drop. The study area lies within the mine waste disposal area, near Rudna village (Fore-Sudetic Monocline, WS Poland), and results are given for a 2D experimental profile. The aim of the project was to design optimal acquisition and processing parameters for the detailed recognition of Tertiary deposits. The proposed acquisition parameters are a compromise between time, cost and results. High-resolution seismic imaging enables the determining of layers within the range of thicknesses between 5 and 15 m, while the maximal depth of imaging reaches 400 m.
Czasopismo
Rocznik
Strony
77--94
Opis fizyczny
Bibliogr. 43 poz.
Twórcy
  • Faculty of Geology, Geophysics and Environmental Protection, AGH-UST University of Science and Technology, Kraków, Poland, kcichy@agh.edu.pl
autor
  • Faculty of Geology, Geophysics and Environmental Protection, AGH-UST University of Science and Technology, Kraków, Poland
autor
  • Faculty of Geology, Geophysics and Environmental Protection, AGH-UST University of Science and Technology, Kraków, Poland
Bibliografia
  • 1. Aki K, Richards PG (2002) Quantitative seismology. W.H. Freeman and Company, New York
  • 2. Atanackov J, Gosar A (2013) Field comparison of seismic sources for high resolution shallow seismic reflection profiling on the Ljubljana moor (central Slovenia). Acta Geodyn et Geomater 10(1):19–40
  • 3. Baumgart-Kotarba M, Dec J, Ślusarczyk R (2001) Quaternary tectonic grabens of Wróblówka and Piniążkowice and their relation to Neogene strata of the Orava Basin and Pliocene sediments of Domański Wierch series in Podhale, Polish West Carpathians. Studia Geomorfolo Carpatho-Balcanica XXXV:101–119
  • 4. Baumgart-Kotarba M, Dec J, Kotarba A, Ślusarczyk R (2008) Glacial trough and sediments infill of the Biała Woda Valley (the High Tatra mountains) using geophysical and geomorphological methods. Studia Geomorphol Carpatho-Balcanica XLII:75–108
  • 5. Benjumea B, Teixido T (2001) Seismic reflection constraints on the glacial dynamics of Johnsons Glacier. Antarct J Appl Geophys 46:31–44
  • 6. Berkhout AJ (1985) Seismic resolution: a key to detailed geologic information. World Oil 201:47–51
  • 7. Butler P (2012) White noise suppression in the time domain. CSEG Rec 37(9):39–44
  • 8. Cambois G (2001) AVO processing: myths and reality. CSEG Rec 26:30–33
  • 9. Cary PW, Lorentz GA (1993) Four-component surface-consistent deconvolution. Geophysics 58:383–392
  • 10. Chopra S, Castagna JP (2014) AVO. Investigations in geophysics. Society of Exploration Geophysics, Tulsa
  • 11. Dec J (2012) High-resolution seismic survey for recognition of the Osiek sulphur deposits and determination of dynamic changes resulting from exploitation. Wydawnictwa AGH, Kraków [in Polish with English abstract]
  • 12. Dec J, Cichostępski K (2017a) Evaluation of sulphur deposit properties on the basis of geomechanical parameters. Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią PAN 101:203–216 [in Polish with English abstract]
  • 13. Dec J, Cichostępski K (2017b) Estimation of sulphur deposit resources on the basis of seismic data. Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią PAN 101:217–227 [in Polish with English abstract]
  • 14. Francese RG, Hajnal Z, Schmitt D, Zaja A (2007) High resolution seismic reflection imaging of complex stratigraphic features in shallow aquifers. Memorie Descriptive della Carta Geologica d’Italia LXXVI:175–192
  • 15. Gisco (2018) Documentation of Gisco vertical geophones. http://www.giscogeo.com/products-equipment/geophones. Accessed 31 July 2018
  • 16. Kłapciński J, Peryt TM (2007) Budowa geologiczna monokliny przedsudeckiej. Monografia KGHM Polska Miedź SA 69–77
  • 17. Kłapciński J, Konstantynowicz E, Salski W, Kenig E, Preidl M, Dubińsdki K, Drozdowski S (1984) Atlas obszaru miedzionośnego (monoklina przedsudecka). Wydawnictwo Śląsk, Katowice
  • 18. Knapp RW, Steeples DW (1986a) High-resolution common-depth-point seismic reflection profiling: instrumentation. Geophysics 51(2):276–282
  • 19. Knapp RW, Steeples DW (1986b) High-resolution common-depth-point reflection profiling: field acquisition parameter design. Geophysics 51(2):283–294
  • 20. Kwietniak A, Cichostępski K, Pietsch K (2018) Resolution enhancement with relative amplitude preservation for unconventional targets. Interpretation 6(3):SH59–SH71
  • 21. Miller RD, Pullan SE, Waldner JS, Haeni FP (1986) Field comparison of shallow seismic sources. Geophysics 51(2):2067–2092
  • 22. Miller RD, Steeples DW, Brannan M (1989) Mapping a bedrock surface under dry alluvium with shallow seismic reflections. Geophysics 27:1528–1534
  • 23. Miller RD, Steeples DW, Myers PB (1990) Shallow seismic reflection survey across the Meers fault, Oklahoma. Bull Geol Soc Am 102:18–25
  • 24. Miller RD, Pullan SE, Steeples DW, Hunter JA (1992) Field comparison of shallow seismic sources near Chino, California. Geophysics 57(5):693–709
  • 25. Miller RD, Pullan SE, Steeples DW, Hunter JA (1994) Field comparison of shallow P-wave seismic sources near Houston, Texas. Geophysics 59(11):1713–1728
  • 26. Myers PB, Miller RD, Steeples DW (1987) Shallow seismic reflection profile of the Meers fault, Comanche County, Oklahoma. Geophys Res Lett 15:749–752
  • 27. Palmer D (1987) High resolution seismic reflection surveys for coal. Geoexploration 24:397–408
  • 28. Pożaryski W (1979) Mapa geologiczna Polski I krajów ościennych 1:1000000. Wyd. Geologiczne, Warszawa
  • 29. Resnick JR (1993) Seismic data processing for AVO and AVA analysis. In: Castagna JP, Backus MM (eds) Offset-dependent reflectivity—theory and practice of AVO analysis. Society of Exploration Geophysics, Tulsa, pp 175–189
  • 30. Ronen J, Claerbout JF (1985) Surface consistent residual statics estimation by stack power maximization. Geophysics 50(12):2759–2767
  • 31. Sheriff RE (1985) Aspects of seismic resolution. In: Berg OR, Woolvetron DG (eds) Seismic stratigraphy II: an integrated approach to hydrocarbon exploration. AAPG Memoir 39
  • 32. Sheriff RE (1991) Encyclopedic dictionary of exploration geophysics. Society of Exploration Geophysics, Tulsa, p 240
  • 33. Sheriff RE (1997) Seismic resolution: a key element. AAPG Explor Geophys Corner 18:44–51
  • 34. Shuey RT (1985) A simplification of the Zoeppritz equations. Geophysics 50(4):609–614
  • 35. Singh S (1984) High-frequency shallow reflection mapping in tin mining. Geophys Prospect 32:1033–1044
  • 36. Steeples DW, Miller RD (1990) Seismic reflection methods applied to engineering, environmental, and groundwater problems. In: Ward S (ed) Review and tutorial: investigations in geophysics, vol 5. Society of Exploration Geophysicists, Tulsa, pp 1–30
  • 37. Steeples DW, Miller RD (1998) Avoiding pitfalls in shallow seismic reflection surveys. Geophysics 63(4):1213–1224
  • 38. Taner MT, Koehler F (1981) Surface consistent corrections. Geophysics 46:17–22
  • 39. Treadway JA, Steeples DW, Miller RD (1988) Shallow seismic study of a fault scarp near Borah Peak, Idaho. J Geophys Res 93:6325–6337
  • 40. Ursin B (1990) Offset-dependent geometrical spreading in a layered medium. Geophysics 55(4):492–496
  • 41. Widess MB (1973) How thin is a thin bed? Geophysics 38(6):1176–1180
  • 42. Yilmaz O (1987) Seismic data processing. Society of Exploration Geophysics, Tulsa
  • 43. Yilmaz O (2001) Seismic data analysis. Society of Exploration Geophysics, Tulsa
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-ae6105d8-4876-4fb3-bee8-114314f90e07
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.