Senior Project on Geophysics-Geop402

Earth Sciences Department-KFUPM

Instructor: Ali Osman Oncel

Project FormatRefractionShear-WaveSoftwareCase WorksStudentsConsultant Tutorials

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Refraction Microtremor (ReMi) Technique

ReMi Data Acquisition
ReMi @ Phoenix Airport and ReMi inside  a house (courtesy  Mike Rucker, AMEC) and Dr.Satish Pullammanappallil

Louie, J. 2001. Reference Paper on REMI and SSA presentation.

Conventional Shear Wave Field Experiment
Advantages

  • Data acquisition and analysis takes about three hours

  • No physical restrictions beyond required line deployment space, minimal permitting

  • Data can be acquired along roads, in buildings & at active construction sites

  • No specialized recording equipment required
    Standard refraction seismograph & refraction P-wave geophones

  • No artificial seismic source Uses ambient noise: “Quiet” site not required

  • Can be used offshore as effectively as on-shore

P.C: Above information has been taken from the presentation of Dr.Satish Pullammanappallil

Depth to Bedrock

Find depth to high velocity depth rock for excavation and construction

The picture in the righ-side is the courtesy of Dr.Satish Pullammanappallil Copyright Optim, Inc.

 

 The picture above is the courtesy of Dr.Satish Pullammanappallil Copyright Optim, Inc.

 Fault & Discontinuity

Shear-wave profile from ReMi overlain on refraction velocity model from refraction analysis Case Study: Oregon State University Geotechnical Engineering Field Research Test Site

 

The picture above is the courtesy of Dr.Satish Pullammanappallil Copyright Optim, Inc.