C6 Station
Monday 21 December 2009 by Wanda BEROLO

traduction [English ] [français ]

C6 station location

Instrument specifications:

  • Acquisition mode:
- Piezometer HITEC CP5210 and thermometer in drilling

- Bi-axial tiltmeter 815-L/T on the surface

  • Measurement frequency: 10 minutes time lapse
  • Transfer mode: daily recovery by modem from the recording station
  • Representation: daily or hourly (averages)

Example of C6 station raw data and conversion formulas:

Date and time Recording Piezometry (mV) Temperature (°) Inclinometry (mA)
13/10/2009 16:00 27318 9,3 15,2 411,2 -199,9
13/10/2009 16:10 27319 9,3 15,03 410,5 -199,9
13/10/2009 16:20 27320 9,3 15,03 410,5 -199,9
13/10/2009 16:30 27321 9,3 15,19 410,5 -199,9
Piezometry data conversion: Data = (Piez_raw-4)*15/16-7,9525
Inclinometry data conversion: Data = Incl_raw*0,58791*π/180-calibration constant

Tiltmeter recordings:

C6 tiltmeter technical note

C6 inclinometry data from November 2008 to October 2009

The inclinometry measurement allows to study the slope response, in term of deformation, with regard to external and internal sollicitations (rainfall, water table levels). The inclinometry of the slope is characterized by a general trend of slow movement with low amplitude punctuated by quick moves generating local rotation of few tenths of degree over few days.

Comparison between inclinometry, piezometry and rainfall data in C6. The start times of the recorded rainfall events are plotted with dashed lines.

 

A relationship between pluviometry, the pressure head of the water table and deformation can be observed.

The slope piezometry is controlled by pluviometry, as described above. Nevertheless, rainfall affects the water table level more significantly during the wet season than the dry season when rainfall events of low or medium importance do not play upon the slope piezometry.

Paradoxically, the opposite effect can be noted regarding the deformation measurement which indicates more important variations during the dry season than the rainy season, taking into account the same rainfall events.

 
This section's articles