Title Unaprjeđenje metodologije procjene potresnog rizika za zgrade
Title (english) Improving the Methodology of Seismic Risk Assessment for Residental Buildings
Author Gordana Pavić
Mentor Marijana Hadzima-Nyarko (mentor)
Mentor Borko Bulajić (mentor)
Committee member Ivan Kraus (predsjednik povjerenstva)
Committee member Hrvoje Draganić (član povjerenstva)
Committee member Željana Nikolić (član povjerenstva)
Granter Josip Juraj Strossmayer University of Osijek Faculty of Civil Engineering and Architecture Osijek Osijek
Defense date and country 2023-06-29, Croatia
Scientific / art field, discipline and subdiscipline TECHNICAL SCIENCES Civil Engineering
Universal decimal classification (UDC ) 624/625 - Civil and structural engineering. Civil engineering of land transport. Railway engineering. Highway engineering
Abstract U radu se predlaže unaprjeđenje metodologije procjene potresnog rizika za zgrade. Istraživanje na kojem se temelji doktorski rad pokrenuto je zbog spoznaja da potresna opasnost u područjima s umjerenom i malom seizmičnošću nije u potpunosti prepoznata te da postojeće metode procjene oštetljivosti zgrada, generiraju rezultate upitne pouzdanosti jer upotrebljavaju globalne procjene potresne opasnosti, modele izloženosti i tipologije zgrada. Istražene su mogućnosti unaprjeđenja procjena svih triju komponenata potresnog rizika. Za potresnu opasnost istražene su i dokazane prednosti koje upotreba probabilisčkog pristupa, spektara jednolike opasnosti te mikrozoniranja promatranog područja, imaju na konačne rezultate procjene potresne opasnosti. Predložene su nove atenuacijske jednadžbe za područja s umjerenom i malom seizmičnošću, procijenjene vrijednosti horizontalnih i vertikalnih vršnih ubrzanja za područjačije je temeljno tlo sastavljeno od dubokih slojeva lokalnog tla i dubokih geoloških sedimenata. Izrađene su karte seizmičkog mikrozoniranja promatranog područja. Pouzdanije modeliranje izloženosti istražilo se u smislu prikupljanja podataka o zgradama (i drugim elementima rizika) na licu mjesta te uzimajući u obzir samo one karakteristike zgrada koje su bitne za procjene potresne oštetljivosti. Izrađen je model izloženosti reprezentativnog grada s promatranog područja na temelju kojeg su predložene predominantne tipologije zgrada za koje je utvrđeno da mogu biti dodijeljene zgradama na svim područjima sa sličnom građevinskom praksom i primijenjenim građevinskim propisima. Rezultati istraživanja i modeliranja potresne opasnosti i izloženosti integrirani su u istraživanju načina unaprjeđenja proračuna potresne oštetljivosti zgrada. U procjeni potresne oštetljivosti upotrijebljeni su modifikatori oštetljivosti zbog utjecaja karakteristika temeljnog tla za čiji su proračun uzeti u obzir spektri jednolike opasnosti i amplifikacija lokalnih i dubokih slojeva temeljnog tla. Za sve zgrade iz modela izloženosti i predominantne tipologije proračunate su vrijednosti ukupnog indeksa oštetljivosti te predloženi razredi oštetljivosti. Istražena je i razlika vrijednosti indeksa oštetljivosti te promjenjivost razreda oštetljivosti s obzirom na najvjerojatniji i manje vjerojatan tip temeljnog tla. Rezultati modeliranja potresne opasnosti, izloženosti i oštetljivosti promatranog područja implementirani su u GIS sustav.
Abstract (english) The dissertation proposes the improvement of earthquake risk assessment methodologies for buildings.The research on which this work is based was initiated due to the knowledge that the earthquake risk in areas with moderate and low seismicity is not fully recognized and that the existing assessments of building vulnerability generate results of questionable reliability because they use global assessments of earthquake risk, exposure models and building typologies. Possibilities of improving the assessments of all three components of earthquake risk were explored. For the earthquake hazard, the advantages that the use of the probabilistic approach, uniform hazard spectra and microzoning of the observed area have on the final results of the earthquake hazard assessment have been investigated and proven. New attenuation equations were proposed for areas with moderate and low seismicity and also estimated were the values of horizontal and vertical peak accelerations for areas whose underlying soil is composed of deep layers of local soil and deep geological sediments. Seismic microzonation maps of the observed area were created. More reliable exposure modeling has been explored in terms of collecting data on buildings (and other risk elements) in site and considering only those building characteristics which are relevant to seismic vulnerability assessments. An exposure model of a representative city from the observed area was created, on the basis of which predominant typologies of buildings were proposed, for which it was determined that they could be assigned to buildings in all areas with similar construction practices and applied construction regulations. The results of research and modeling of seismic hazard and exposure are integrated in research on how to improve the calculation of seismic vulnerability of buildings. In the assessment of seismic vulnerability, vulnerability modifiers were used due to the influence of the characteristics of the foundation, for the calculation of which the spectra of uniform danger and amplification of local and deep layers of the foundation soil were taken into account. For all buildings from the exposure model and predominant typology, the values of the total vulnerability index and the proposed vulnerability classes were calculated. The difference in vulnerability index values and the variability of the vulnerability class were also investigated with respect to the most probable and less probable type of foundation soil. The results of modeling the earthquake hazard, exposure and vulnerability of the observed area we implemented in the GIS system.
Keywords
unaprjeđenje metodologije
procjena potresnog rizik
zgrade
potresna opasnost
izloženost
oštetljivost
Keywords (english)
improvement of methodology
assessment of seismic risk
buildings
seismic hazard
exposure
vulnerability
Language croatian
URN:NBN urn:nbn:hr:133:837784
Promotion 2023
Study programme Title: Postgraduate university study program in civil engineering Study programme type: university Study level: postgraduate Academic / professional title: doktor/doktorica znanosti, područje tehničkih znanosti, polje građevinarstvo (doktor/doktorica znanosti, područje tehničkih znanosti, polje građevinarstvo)
Type of resource Text
Extent Doktorski rad sadržava 348 stranica, 100 ilustracija, 69 tablica i 494 citiranih publikacija
File origin Born digital
Access conditions Open access
Terms of use
Created on 2023-10-26 07:26:54