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Geotechnical and Geological Engineering
Erschienen in: Geotechnical and Geological Engineering 3/2017

31.12.2016 | Original paper

Impact of Higher Frequency Content of Input Motion Upon Equivalent Linear Site Response Analysis for the Study Area of Delhi

verfasst von: Joy K. Mondal, Abhishek Kumar

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 3/2017

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Abstract

While travelling through the subsoil layers, earthquake generated bedrock motions get modified significantly due to local soil and should be quantified using ground response analysis. Present study concentrates on equivalent linear method of site response analysis in SHAKE2000 software. It is a frequency based analysis tool having default frequency set to 15 Hz. While due consideration is given to amplitude, no to very limited information about the frequency content of the input motion to be considered in ground response analysis is available. In the present work, the effect of the maximum frequency of ground motion in site response analysis using SHAKE2000 is examined. Two sets of analyses are carried out in this work based on 30 globally recorded input motions. In the first analyses, input motion up to 15 Hz maximum frequency, which is a default value in SHAKE2000 is considered while second analyses are based on considering each of the 30 input motions up to the Nyquist frequency. Comparing the results from the two sets of analyses highlight that selection of maximum frequency in SHAKE2000 has considerable effect in ground motion amplification at different depths. As a result, even the peak ground acceleration which controls the building behavior and damage scenario, is going to change considerably even in case same input motion is used in the analysis.
Vorheriger Artikel Distinctive Effects of Horizontal At-Rest Pressure on Conventional Limit Pressure Results
Nächster Artikel Method to Reduce Bump at Bridge Approach of Open Expressway Using Horizontal Drilling Replacement

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Literatur
Anbazhagan P, Kumar A, Sitharam TG (2010) Site response of deep soil sites in Indo-Gangetic plain for different historic earthquakes. In: Proceeding of the 5th International conference on recent advances in geotechnical earthquake engineering and soil dynamics, San Diego, California, Paper No. 3.21d
Bazzurro P, Cornell CA, Shome N, Carballo JE (1998) Three proposal for characterizing MDOF nonlinear seismic response. J Struct Eng 124(11):1281–1289CrossRef
Berdet JP, Ichii K, Lin CH (2000) EERA: a computer program for equivalent-linear earthquake site response analysis of layered soil deposits. University of Southern California, Department of Civil Engineering
BSSC (2003) NEHRP recommended provision for seismic regulation for new buildings and other structures (FEMA 450). Part 1: provisions, building safety seismic council for the federal Emergency Management Agency, Washington
Chatterjee K, Choudhury D (2016) Influences of local soil conditions for ground response in Kolkata city during earthquakes. In: Proceedings of the National Academy of Sciences, India. section a: physical sciences, Springer, India
Chen JC (1997) Site response studies for magnitude 7.25 Hayward Fault Earthquakes, Independent Seismic evaluation of the 24-580-980 connector ramps. Lawrence Livermore National Laboratory, Livermore, UCRL-CR-123201, 2
Chopra AK (2014) Dynamics of structures. Pearson Education, Upper Saddle River
Choudhury D, Phanikanth VS, Mhaske SY, Phule RR, Chatterjee K (2015) Seismic liquefaction hazard and site response for design of piles in Mumbai city. Indian Geotech J 45(1):62–78CrossRef
Deodatis D (1996) Non stationary stochastic vector processes: seismic ground motion applications. Probab Eng Mech 11:145–168CrossRef
Desai SS, Choudhury D (2015a) Non-linear site-specific seismic ground response analysis for port sites in Mumbai, India, Japanese Geotechnical Society Special Publication (ISSN: 2188-8027), Japan, In: Section 3. Geodisaster—Seismic site response, Proceedings of the 15th Asian regional conference on soil mechanics and geotechnical engineering, Japan, vol 2, no (19). pp 733–736
Desai SS, Choudhury D (2015b) Site-specific seismic ground response study for nuclear power plants and ports in Mumbai. Nat Hazards Rev ASCE 16(4):04015002CrossRef
Dorourdian M, Vucetic M (1995) A direct simple shear device for measuring small-strain behavior. Geotech Test J 18(1):69–85CrossRef
Finn WDL, Wightman A (2003) Ground motion amplification factors for the proposed 2005 edition of the National building code of Canada. The National Research Council Canada (NRC) research web press
IS 2131 (1981) Indian Standard, method for standard penetration test for soils, 1st rev. Bureau of Indian Standards, New Delhi
IS 1892 (1974) Indian Standard code of Practice for subsurface investigation for foundations. Bureau of Indian Standards, New Delhi
IS 1893 (2002) Indian Standard criteria for earthquake resistant design of structures, part 1—general provisions and buildings. Bureau of Indian Standards, New Delhi
Iyenger RN, Ghosh S (2004) Microzonation of earthquake hazard in greater Delhi area. Curr Sci 87(9):1193–1202
Jain SK, Murthy CVR, Jaswant NA, Rajendran CP, Rajendran K, Sinha R (1999) Chamoli (Himalaya, India) Earthquake of 29 March 1999. EERI Special Earthquake Report, EERI Newsletter 33(7)
Kennedy R, Short S, Merz K, Tokarz F, Idriss I, Power M, Sadigh K (1984) Engineering characterization of ground motion-Task I: effects of characteristics of free field motion on structural response. U.S. Nuclear Regulatory Commission, WashingtonCrossRef
Kim J, Sitar N (2007) Probabilistic analysis of seismic slope stability. In: Proceedings of the 5th international symposium on Geotechnical safety and risk, Tongji University
Kramer SL, Mitchell RA (2006) Ground motion intensity measures for liquefaction hazard evaluation. Earthq Spectra 22(2):413–438CrossRef
Krawinkler H, Medina R, Alavi B (2003) Seismic drift and ductility demands and their dependence on ground motions. Eng Struct 25(5):637–653CrossRef
Kumar A (2012) Seismic microzonation of Lucknow based on region specific GMPEs and geotechnical field studies. PhD thesis, Indian Institute of Science, Bangalore
Kumar A, Harinarayan NH, Baro O (2015) High amplification factor for low amplitude ground motion: assessment for Delhi. Disaster Adv 8(12):1–11
Kumar A, Baro O, Harinarayan NH (2016) Obtaining the surface PGA from site response analyses based on globally recorded ground motions and matching with the codal values. Nat Hazards 81(1):543–572CrossRef
Mahajan AK, Virdi KS (2001) Macroseismic field generated by 29 March, 1999 Chamoli Earthquake and its seismotectonics. J Asian Earth Sci 19(4):507–516CrossRef
Masuda T, Yasuda S, Yoshida N, Sato M (2001) Field investigations and laboratory soil tests on heterogeneous nature of alluvial deposits. Soils Found 41(4):1–16CrossRef
Mavroeidis GP, Dong G, Papageorgiou AS (2004) Near fault ground motions, and the response of elastic and inelastic single degree of freedom (SDOF) systems. Earthq Eng Struct Dyn 33(9):1023–1049CrossRef
Miura K, Kobayashi S, Yoshida N (2000) Equivalent linear analysis considering large strains and frequency dependent characteristics. In: Proceedings of 12th world conference of earthquake engineering. Auckland, paper no 1832
MoES (2014) A report on seismic hazard microzonation of NCT Delhi on 1:10000 scale, technical report by Ministry of Earth Science, Government of India
Narayan JP, Sharma ML (2004) Effects of local geology on damage severity during Bhuj, India earthquake. In: Proceeding of the 13th World conference on earthquake engineering, Vancouver, paper no 2042
Nihon (2011) Liquefaction induced damages caused by the M 9.0 East Japan mega earthquake on March 11, 2011, Tokyo Metropolitan University, Hisataka Tano, Nihon University, Koriyama Japan, with cooperation of save Earth co. and Waseda University
Ohsaki Y, Iwasaki R (1973) On dynamic shear moduli and Poison’s ratio of soil deposits. Soils Found 13(4):61–73CrossRef
Papageorgiou A, Halldorsson B, Dong G (2000) Target acceleration spectra compatible time histories. University of Buffalo, New York
Phanikanth VS, Choudhury D, Reddy GR (2011) Equivalent-linear seismic ground response analysis of some typical sites in Mumbai. Geotech Geol Eng 29:1109–1126CrossRef
Rajendran K, Rajendran CP, Thakur M, Tuttle MP (2001) The 2001 Kutch (Bhuj) earthquake: coseismic surface features and their significance. Curr Sci 80(11):1397–1405
Rao H, Ramana GV (2008) Dynamic soil properties for microzonation of Delhi, India. J Earth Sys Sci 117(S2):719–730CrossRef
Rao CH, Ramana GV (2009) Site specific ground response analyses at Delhi, India. Electron J Geotech Eng 14D
Schnabel PB (1973) Effect of local geology and distance from source on earthquake ground motion. Ph.D. thesis, University of California, Berkeley
Schnabel PB, Lysmer J, Seed HB (1972) SHAKE—a computer program for earthquake response analysis of horizontally layered sites. Report no. EERC 72-12. University of California, Berkeley
Seed HB, Idriss IM (1970) Soil moduli and damping factors for dynamic response analysis. Report no. EERC 70-10, University of California, Berkeley
Seed HB, Idris IM, Arango I (1983) Evaluation of liquefaction potential using field performance data. J Geotech Eng 109(3):458–482CrossRef
Stewart JP, Liu AH, Choi Y, Baturay MB (2001) Amplification factors for spectral acceleration in active regions. Pacific Earthquake Engineering Research Centre, PEER report 2001/10
Stewart JP, Chiou SJ, Bray JD, Graves RW, Somerville PG, Abrahamson NA (2002) Ground motion evaluation procedure for performance based design. Soil Dyn Earthq Eng 2(9–12):765–772CrossRef
Sugito M, Goda H, Masuda T (1994) Frequency dependent equi-linearized technique for seismic response analysis of multi-layered ground. J Geotech Eng (Proc JSCE, No. 493/III-27) 49–58 (in Japanese)
Sun JI, Golesorkhi R, Seed HB (1988) Dynamic moduli and damping ratios for cohesive soils. Report no. EERC 88-15, University of California, Berkeley
Yoshida N (2015) Seismic ground response analysis, geotechnical, geological and earthquake engineering. Springer, Berlin, pp 263–266
Metadaten
Titel
Impact of Higher Frequency Content of Input Motion Upon Equivalent Linear Site Response Analysis for the Study Area of Delhi
verfasst von
Joy K. Mondal
Abhishek Kumar
Publikationsdatum
31.12.2016
Verlag
Springer International Publishing
Erschienen in
Geotechnical and Geological Engineering / Ausgabe 3/2017
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI
https://doi.org/10.1007/s10706-016-0153-0

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