+ All Categories

Home > Documents > Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Date post:	18-Jan-2016
Category:	Documents
Upload:	anastasia-barker
View:	218 times
Download:	0 times

Download Report this document

Share this document with a friend

Embed Size (px):

Popular Tags:

ground motion simulations

point source model

abbiamo usato il modello

alla fine abbiamo usato

response spectra

reference fourier spectrum

e meccanismo normale

12

Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events

Transcript

Page 1: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion simulations in the Pollino region (Southern Italy) for

Mw 6.4 scenario events

Page 2: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

ITIS023 Mercure Basin Fault ITCS038 Remediello-Mormanno Composite sourceDISS reports that the seismogenic potential associated to such faults is Mw 6.4.

Page 3: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Source Model – Mercure Basin Fault

Approximated 1D wave-propagation (ray theory)

Lenght=22km ; Width=13kmStrike, dip, rake= 335° , 60°, -90°Top depth = 1 km Mw=6.4

Slip distribution = Heterogeneous (with 2 main patches of slip)rupture velocity = 0.8 Vs

Page 4: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Spectral attenuation modelR=10km R=50km

Rovelli et al., 1988Cantore et al., 2011 – Irpinia 1<f<30 HzCastro et al., 2004 – Basilicata 2<f<10 Hz

GR=1/RVs= 3.4 km/sκ =0.035 s

Page 5: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

DSMSynthetic seismograms are computed through a modified versione of the stochastic method proposed by Boore (1983) for point source model:

• Gaussian noise is modulated with acceleration envelopes, computed solving the rapresentation theorem for an extend source

• The amplitudes are scaled applying a Reference Fourier spectrum, whose parameters (corner frequency and distance from the fault ) are inferred from the modelling of the extend source.

=

X Random Noise

Deterministic Envelope

IFFT (point-source-like Reference Spectrum)

NS

Synthetic Seismogram

Page 6: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion maps (PGA bedrock)

scenario 1: northwestern rupture propagation

Page 7: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion maps (PGA bedrock)

scenario 2: bilateral rupture propagation

Page 8: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion maps (PGA bedrock)

scenario 3: southeastern rupture propagation

Page 9: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Ground motion maps (PGA bedrock)

GMPE scenario: ITA10 mean predictions

Page 10: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Comparioson with empirical GMPEs

Page 11: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Acc. Response Spectra at 2 sites

Mormanno

Lauria

Page 12: Ground motion simulations in the Pollino region (Southern Italy) for Mw 6.4 scenario events.

Strong motion data from RAN and INGV stations

INGV stations

Recommended

We’re ready · 2017-07-28 · SASK. 150 MW. 150 MW. CA. 80 MW. 80 MW. Total MW: 1,260 MW. 300 MW. 80 MW. 120 MW. 1,760 MW . Total Est: $3.0 – 4.0 B. 5-yr development plan leverages

1 Congestion Control Reading: Sections 6.1-6.4 COS 461: Computer Networks Spring 2006 (MW 1:30-2:50 in Friend 109) Jennifer Rexford Teaching Assistant:

INDIA SOLAR ROOFTOP - Cleantech Solar · 2018. 12. 11. · 21 16 MW 8 MW 10 MW 22 MW 22 MW 52 MW 21 MW 14 MW All ﬁgures in MW Commer cial Industrial Residential OPEX² CAPEX² Public

COMPARATIVE PERFORMANCE ASSESSMENT OF IGCC … · SNOX power absorption (fan) MW - 6.4 6.4 6.4 Dec. section power absorption (fan) MW - - 3.0 3.0 CO2 compression section absorption

Congestion Control Reading: Sections 6.1-6.4 COS 461: Computer Networks Spring 2009 (MW 1:30-2:50 in CS 105) Mike Freedman Teaching Assistants: Wyatt Lloyd.

Entertainment & Humor

AKINCI HEPP SEISMIC RISK ASSESSMENT - miga.org · Sultandağı-2002 (M=6.4), Çankırı-Orta-2000 (Ms=5.9), Düzce-1999 (Mw ... Project site of Akıncı HEPP is mainly under the effect

Sports in the Pollino National Park

Siemens D3 platform – 3.0-MW, 3.2-MW, 3.3-MW, and … · siemens.com / wind Siemens D3 platform – 3.0-MW, 3.2-MW, 3.3-MW, and 3.4-MW direct drive turbines Reduced complexity,

r^^J S § · Ground Water Beryllium Data Well No. MW-I MW-2 MW-3 MW-3B MW-3D MW-4 MW-5 MW-6 MW-8 MW-SD Sample Type unfiltered filtered unfiltered filtered tmfiitered filtered

This document is for reference only. Please see ... · 8.2 8.2 8.1 7.1 6.5 6.4 6.4 6.4 6.4 6.4 6.4 6.3 6.2 6.2 6.1 5.3 5.2 5.1 4.3 4.4 4.1 4.2 3.2 3.2 3.2 3.1 3.1 2.2

Sustainability at SDG&Emountaintownnews.net/.../SDGE...Presentation-Final.pdf · SDG&E Storage Targets 8 0 MW 10 MW 20 MW 30 MW 40 MW 50 MW 60 MW 70 MW 80 MW 2014 Cycle 2016 Cycle

Stress Transfer by the 2008 Mw 6.4 Achaia Earthquake to the ...

Gas natural en Colombia retos y oportunidadesGas+natural... · Solar 2022 17,319 64% 29% 7% MW MW MW MW MW MW MW MW MW MW HOY Actualmente tenemos la 6ta matriz de ... un alto potencial

Statkraft · Nepal 23 MW Philippines 149 MW Brazil 86 MW Panama (project) Zambia 6 MW Norway 12 518 MW Sweden 1 315 MW UK 273 MW Laos 100 MW Germany 2 692 MW India 91 MW 100 % owned

· DW 1200 mW 9.6 mW/°C 770 mW 625 mW N 1150 mW 9.2 mW/°C 736 mW 598 mW recommended operating conditions MIN NOM MAX UNIT Supply voltage, VCC 4.75 5 …

An investigation into a new method to repair motor cores ... · 10 MW, 11kV Stator: Winding failure. PdMSA 2011 Damage to Cores 6.4 MW, 1430kV Stationary Rotor: Core rub 350 kW Rotor:

6.4 Probability