Support Options

Submit a Support Ticket


NEES Project Warehouse

Tsunami Generation by Landslides: Integrating Laboratory Scale Experiments, Numerical Models and Natural Scale Applications
Curation progress:

This experiment contains sensor data, metadata, and documentation including the phase report uploaded to the project level.

Complete - 05/13/2013

What's this?

The curation dashboard shows your progress as you add required elements to your project or experiment.

Experiment-12: Phase 1: Farfield H30 - water depth h=0.3 m: Measurements of radial wave propagation, wave runup, landslide kinematics and deposit.
Experiment Type: Tsunami Wave Basin
Description: The landslide tsunami generator (LTG) was deployed in the far field scenario with a water depth of 0.3 m. The far field configuration consists of the LTG mounted to a ramp with an opposing headland ramp 23 m from the toe of the landslide ramp. Both the landslide ramp and the opposing headland ramp were built at a slope of 1:2 (vertical:horizontal) or I? = 27.1E?. Wave gauges were strategically placed in the basin along rays at various angles from the landslide source to describe the tsunami wave angular dependence. A hybrid system of runup wave gauges and camera recordings focused on the runup slope measured the wave runup. The deformable landside material consisted of naturally rounded river gravel. The landslide surface kinematics were recorded with a planar particle image velocimetry (PIV) setup. The landslide deposit was scanned with a multi-transducer acoustic (MTA) array.
Dates: October 01, 2010 - October 01, 2010
Facility: Oregon State University, OR, United States
Equipment: View Details
Specimen Type:
Sensors: NEESltg2_instm_locations_2010_09_22_1500
Trial ( ? ) Repetition ( ? ) Interactive ( ? ) UnprocessedConvertedCorrectedDerived
Loading Trial-1..
Loading Trial-2..
Loading Trial-3..
Loading Trial-4..
Loading Trial-5..
Loading Trial-6..
Loading Trial-7..
Related Documents:
No files available
No Images Found.
Tags (keywords):
  1. landslide
  2. tsunami
  3. runup
  4. wave propagation
Cite this work:
Brian McFall, Fahad Mohammed, Hermann Fritz (2013). "Phase 1: Farfield H30 - water depth h=0.3 m: Measurements of radial wave propagation, wave runup, landslide kinematics and deposit.", Network for Earthquake Engineering Simulation (distributor), Dataset, DOI:10.4231/D31J97769