RE-EVALUATION OF HORIZONTAL AND VERTICAL PEAK GROUND ACCELERATION VALUES IN BANJA LUKA

Geotehnički aspekti građevinarstva i zemljotresno inženjerstvo 2025, Vrnjačka Banja, 15 – 17. oktobar 2025. (pp. 77-84) 

 

АУТОР(И) / AUTHOR(S): Borko Bulajić , Silva Lozančić , Senka Bajić , Anka Starčev-Ćurčin , Miloš Šešlija , Miljan Kovačević , Marijana Hadzima-Nyarko

 

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DOI: 10.46793/GEOAG25.077B

САЖЕТАК / ABSTRACT:

U ovom radu predstavljamo rezultate nedavnih analiza seizmičkog hazarda za Banju Luku. Predstavljene su vrednosti horizontalnog i vertikalnog maksimalnog ubrzanja tla koje su sračunate pomoću probabilističke analize seizmičkog hazarda. Ove vrednosti su upoređene sa vrednostima koje su bile date na kartama seizmičkog hazarda u bivšoj SFRJ kao i sa vrednostima koje su date na trenutno važećim kartama u Bosni i Hercegovini, a koje su u skladu sa Evrokodom 8.

КЉУЧНЕ РЕЧИ / KEYWORDS:

analiza seizmičkog hazarda, Banja Luka, maksimalno ubrzanje tla, karte seizmičkog hazarda, Evrokod 8 

ПРОЈЕКАТ / ACKNOWLEDGEMENT:              

REFERENCES / ЛИТЕРАТУРА:         

  • Bulajić, B.; Lozančić, S.; Bajić, S.; Starčev-Ćurčin, A.; Šešlija, M.; Kovačević, M.; Hadzima-Nyarko, M. PGA Estimates for Vertical Ground Motion and Varying Deep Geology Site Surroundings—A Case Study of Banja Luka. Applied Sciences 2025, 15, 6542.
  • Bulajić, B.; Lozančić, S.; Bajić, S.; Starčev-Ćurčin, A.; Šešlija, M.; Kovačević, M.; Hadzima-Nyarko, M. Horizontal PGA Estimates for Varying Deep Geological Conditions—A Case Study of Banja Luka. Applied Sciences 2025, 15, 6712.
  • Bulajić, B.Đ.; Bajić, S.; Stojnić, N. The effects of geological surroundings on earthquake-induced snow avalanche prone areas in the Kopaonik region. Cold Regions Science and Technology 2018, 149, 29-45, doi:https://doi.org/10.1016/j.coldregions.2018.02.005.
  • Bulajić, B.Đ.; Hadzima-Nyarko, M.; Pavić, G. Vertical to Horizontal UHS Ratios for Low to Medium Seismicity Regions with Deep Soil atop Deep Geological Sediments—An Example of the City of Osijek, Croatia. Applied Sciences 2021, 11, doi:10.3390/app11156782.
  • Bulajić, B.Đ.; Hadzima-Nyarko, M.; Pavić, G. Horizontal UHS Amplitudes for Regions with Deep Soil Atop Deep Geological Sediments—An Example of Osijek, Croatia. Applied Sciences 2021, 11, doi:10.3390/app11146296.
  • Bulajic, B.Đ.; Hadzima-Nyarko, M.; Pavic, G. PGA estimates for deep soils atop deep geological sediments -An example of Osijek, Croatia. Geomechanics and Engineering 2022, 30, 233-246, doi:10.12989/GAE.2022.30.3.233.
  • Bulajić, B.Đ.; Pavić, G.; Hadzima-Nyarko, M. PGA vertical estimates for deep soils and deep geological sediments – A case study of Osijek (Croatia). Computers & Geosciences 2022, 158, 104985, doi:https://doi.org/10.1016/j.cageo.2021.104985.
  • Lee, V.W.; Manić, M.I.; Bulajić, B.Ð.; Herak, D.; Herak, M.; Trifunac, M.D. Microzonation of Banja Luka for performance-based earthquake-resistant design. Soil Dynamics and Earthquake Engineering 2015, 78, 71-88, doi:https://doi.org/10.1016/j.soildyn.2014.06.035.
  • Lee, V.W.; Trifunac, M.D.; Bulajić, B.Đ. Seismic microzoning in Novi Sad, Serbia – A case study in a low-seismicity region that is exposed to large and distant earthquakes. Journal of Seismology 2023, 27, 979-997, doi:10.1007/s10950-023-10174-4.
  • Lee, V.W.; Trifunac, M.D.; Bulajić, B.Đ. Seismic hazard mapping for peak ground velocity: microzonation of Novi Sad, Serbia—a case study in a low-seismicity region exposed to large and distant earthquakes. Journal of Seismology 2024, doi:10.1007/s10950-024-10259-8.
  • Lee, V.W.; Trifunac, M.D.; Bulajić, B.Đ.; Manić, M.I.; Herak, D.; Herak, M. Seismic microzoning of Belgrade. Soil Dynamics and Earthquake Engineering 2017, 97, 395-412, doi:https://doi.org/10.1016/j.soildyn.2017.02.002.
  • Lee, V.W.; Trifunac, M.D.; Bulajić, B.D.; Manić, M.I.; Herak, D.; Herak, M.; Dimov, G. Seismic microzoning in Skopje, Macedonia. Soil Dynamics and Earthquake Engineering 2017, 98, 166-182, doi:https://doi.org/10.1016/j.soildyn.2017.04.007.
  • Lee, V.W.; Trifunac, M.D.; Bulajić, B.Đ.; Manić, M.I.; Herak, D.; Herak, M.; Dimov, G.; Gičev, V. Seismic microzoning of Štip in Macedonia. Soil Dynamics and Earthquake Engineering 2017, 98, 54-66, doi:https://doi.org/10.1016/j.soildyn.2017.04.003.
  • Seed, H.B.; Murarka, R.; Lysmer, J.; Idriss, I.M. Relationships of maximum acceleration, maximum velocity, distance from source, and local site conditions for moderately strong earthquakes. Bulletin of the Seismological Society of America 1976, 66, 1323-1342, doi:10.1785/bssa0660041323.
  • Seed, H.B.; Ugas, C.; Lysmer, J. Site-dependent spectra for earthquake-resistant design. Bulletin of the Seismological Society of America 1976, 66, 221-243, doi:10.1785/bssa0660010221.
  • Trifunac, M.D.; Brady, A.G. On the correlation of seismic intensity scales with the peaks of recorded strong ground motion. Bulletin of the Seismological Society of America 1975, 65, 139-162, doi:10.1785/bssa0650010139.
  • Trkulja, D. Earthquakes in Banja Luka. In Proceedings of the International Conference on Earthquake Engineering, Banja Luka, Bosnia and Herzegovina, 26-28 October, 2009, 2009; pp. 43-57.
  • Trkulja, D. Earthquakes of Banja Luka region; Institute of Construction Banja Luka – ZIBL: Banja Luka, Bosnia and Herzegovina, 2009.
  • Grünthal, G.; Wahlström, R.; Stromeyer, D. The SHARE European Earthquake Catalogue (SHEEC) for the time period 1900–2006 and its comparison to the European-Mediterranean Earthquake Catalogue (EMEC). Journal of Seismology 2013, 17, 1339-1344, doi:10.1007/s10950-013-9379-y.
  • Woessner, J.; Laurentiu, D.; Giardini, D.; Crowley, H.; Cotton, F.; Grünthal, G.; Valensise, G.; Arvidsson, R.; Basili, R.; Demircioglu, M.B.; et al. The 2013 European Seismic Hazard Model: key components and results. Bulletin of Earthquake Engineering 2015, 13, 3553-3596, doi:10.1007/s10518-015-9795-1.
  • Chioccarelli, E.; Cito, P.; Iervolino, I.; Giorgio, M. REASSESS V2.0: software for single- and multi-site probabilistic seismic hazard analysis. Bulletin of Earthquake Engineering 2019, 17, 1769-1793, doi:10.1007/s10518-018-00531-x.
  • Temporary Technical Regulations for Construction in Seismic Areas. 1964, 39/64.
  • Book of rules on technical norms for construction of high-rise buildings in seismic regions. 1982, 31/81, 49/82.
  • Book of rules on technical norms for construction of high-rise buildings in seismic regions. 1990, 31/81, 49/82, 29/83, 21/88, 52/90.
  • Book of rules on technical norms for construction of high-rise buildings in seismic regions. 1981, 31/81.
  • Trifunac, M.; Lee, V.; Živčić, M.; Manić, M. On the correlation of Mercalli-Cancani-Sieberg intensity scale in Yugoslavia with the peaks of recorded strong earthquake ground motion. European Earthquake Engineering 1991, 5, 27-33.
  • B&H. Seismic zone maps and reference ground accelerations therein of B&H, BAS EN 1998-1/NA:2018. Maps accompanying National Annexes (NA) 2018.
  • “Eurocode 8: Design of Structures for Earthquake Resistance. Part 1: General Rules, Seismic Actions and Rules for Buildings,” European Standard EN 1998-1:2004. 2004.