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EM Wave Theory Simplifications: Conductors: s>>we Dielectrics:

Published byKatherine Watts Modified over 6 years ago

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Presentation on theme: "EM Wave Theory Simplifications: Conductors: s>>we Dielectrics:"— Presentation transcript:

1 EM Wave Theory Simplifications: Conductors: s>>we Dielectrics:

2 Conductors and Dielectrics
Skin depth = SQRT (2/wms) Wave speed = SQRT (2w/ms) Wavelength = 2p SQRT (2/wms) Note - ms are together Skin depth = 2 SQRT (e/m) / s Wave speed = 1 / SQRT (me) Wavelength = 2p / w SQRT (me) Note - e appears here

3 EM Spectrum GPR frequencies Lowest ~80 MHz Highest ~1200 MHz
sees deepest— ~30m but poor rez. Highest ~1200 MHz Shallow— ~10 cm High rez

4 Monitoring Remediation: GPR

5 GPR Antennas 100 Mhz 200MHz 500 Mhz 900 Mhz (lair= 300 cm) ( 150 cm)

6 Dielectric constant, K permittivity e = K eo where eo = 1/36p x sec/ohm-m K = 1 air V = 30 cm/ns = gasoline = 15 = dry sand = 12.25 = wet sand = 6.7 = water = 3.33

7

8 Gasoline Spill at OGI

9 Things to notice Gasoline spreads in fingers, maybe reflecting microtextures in the sand. The fingers wax (and wane?) as heads build up at the source. They pulse outward. (Not shown) A repeat survey done the following spring showed bright spots (gas pockets) scattered at different depths.

10

11

12 GPR Characteristics 80-1200 MHz Uses true EM reflections
Textures, petro-chemicals, UXO... High rez (~10 cm) Fast ( km/hr) Can work near cultural noise Maximum depth penetration <~30m Can’t penetrate conductive ground (>~30 mS/m) clays brackish porewaters Realistic sections

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