Hager-Richter - Consultants in Geology & Geophysics

Boston, MA: EM-31 Investigation

General Applications

Environmental audits and site assessments
Evaluation of active and inactive industrial facilities
Groundwater resource studies: mapping and plume delineation
Public / private remedial investigations and feasibility studies

Specific Applications

Detect and locate buried drums, underground storage tanks, and utilities
Delineate boundaries of waste pits, landfills, and trenches
Locate and define contaminant plumes
Find water resources
Determine lithology
Detect and determine the orientation of fractures and faults

Electromagnetics Case Study:
Detect Explosives

Problem
A military site in the Northeastern U.S. contained exploded and unexploded buried ordnance. The client had proposed installing monitoring wells at several locations as part of a hydrogeological study of the site. Our task was to examine each proposed boring location to determine whether buried metal objects, some of which might be ordnance, were present in the vicinity of the proposed borings.

Solutions
Since much of the ordnance consisted of brass, we conducted both a focused terrain conductivity survey and a magnetic survey centered on each proposed boring location. After analyzing the data, we recommended that several of the proposed borings be relocated, and the wells were subsequently installed without encountering any subsurface obstacles.

Electromagnetic induction (EM), also called Terrain Conductivity, allows for the rapid collection and interpretation of large quantities of data, making it a cost effective technique. EM can be used to detect and locate both metal objects and zones of conductive contamination. It is the only widely available geophysical technique that is sensitive to the presence of both ferrous and non-ferrous metal objects. EM complements both magnetics and ground penetrating radar (GPR).

EM measures the apparent conductivity of the subsurface, including effects of the soil, bedrock fractures, contaminants, metal objects, and ground water. Variations in conductivity may indicate changes in composition, layer thickness, or moisture content; the presence of buried metal such as drums, and/or contamination. Some EM instruments are specifically designed to be sensitive only to the presence of metal objects.

Data are acquired at single stations and/or continuously along lines. Our digital field data recording capability allows us to collect and interpret data both rapidly and accurately. We use a variety of EM instruments and data collection methodologies, including standard profiling, multiple coil spacing, conductivity sounding, and downhole tools designed for used in open holes or in PVC cased borings. Such flexibility allows us to design a program to meet your needs.

Since no two projects are alike, the depth and diversity of our experience provide distinct advantages for our clients.

Electromagnetic induction surveys have certain limitations. They may be unsuitable for examining highly industrialized and/or urbanized areas where cultural features such as buildings, pipelines and power lines may interfere with the collection of accurate data. Electromagnetic induction is also unsuitable for locating small isolated objects on a large site.

We can provide you with an accurate assessment of your requirements to determine whether or not the use of electromagnetic induction is appropriate at a particular site.