Environmental
Engineering
Overhauser |
|
Magnetics are
one of the most commonly employed methods in environmental and engineering site audits, remediations, and
assessments.
The high level of use in industry, research and teaching |
reflects
the versatility, efficient data acquisition, ease-of-use, and
effectiveness of magnetics for various types of applications.
Availability of results in the field make magnetics ideal for
rapid reporting to clients. |
|
 Environmental & Engineering
Applications
Some of the typical applications include locating:
Abandoned well casings
Brownfield site surveys
prior to trial pits
Boundaries of landfills
Buried
drums
Buried
reinforced concrete slabs
Buried
waste & landfill
Karsts,
sinkholes and mineshafts
Pipelines and utility cables
Underground storage tanks (USTs)
Geologic mapping of soils is another
application that is increasingly feasible with higher sensitivity
magnetometers, and highly sampled datasets.
The key to the use of magnetics is the ability to quickly find buried
ferrous objects (related to human activity) that threaten the
environment.This requires a basic level of experience in equipment
operation as well as knowledge of different types of environmental and
engineering targets, and the types of anomalies to expect from each
target.
Generally, environmental and engineering targets provide large and
definitive anomalies as they are located near surface. However, they may
be affected by cultural noise and near surface debris. These effects are
mitigated by use of a gradiometer (i.e. configuration with two sensors).
Gradiometers remove much of the unwanted noise and are ideal for
locating the edges of buried objects. They also enable removal of
diurnal effects thereby eliminating the need for a separate base
station.
Applying
Advanced Magnetic Technologies
As
noted above, the gradiometer has much greater near surface resolving
power compared to the single sensor, total field magnetometer. This
makes this type of configuration an ideal tool for locating small
targets. For effective application, a gradiometer requires two or more
sensors with high sensitivity, stability and absolute accuracy. The
instrument must also measure gradient values simultaneously at two
sensors. Sensor and measurement architectures are important
considerations for professionals considering a magnetometer purchase.
For environmental and engineering applications, the
Overhauser
magnetometer / gradiometer
is an excellent choice, not only because of its high sensitivity (0.015
nT/ΦHz). Other advantages are the absolute value of the measurement and
the inherent stability of counting mechanisms.
Another
option is the new optically pumped
Potassium magnetometer.
The GSMP-40 is a very high sensitivity system for very
advanced work, resolution and vehicular surveys. It also has high
gradient tolerance for working in areas that may be affected by cultural
noise.
GEMs also offers a superior
Proton Precession
instrument. The GSM-19T combines the most technologically advanced
proton precession system available today with classic value pricing.
GEM Advanced Magnetometers.
Our World is Magnetic. |
Applications
