Leading-Edge Applied R&D Engineering Consulting Services
SES's advanced scientific and engineering R&D activities can be grouped into four broad categories. SES specializes in solving unusually complex problems not attempted previously and requiring the use of the most recent scientific advances in the field of grounding and electromagnetic interference.
Browse an outline of a typical grounding specification study.
Browse an outline of a typical interference study.
Some of the Projects completed by SES in the past 3 years.
1. High Voltage Industrial Grounding Analysis
HVAC, HVDC and industrial grounding systems in multilayered soils and transferred potentials to buried structures such as pipelines.
Effects of cathodic protection installations on other metallic structures.
Since today's higher system voltages and fault current levels require substantial and expensive grounding installations, SES's computer tools help customers increase their design efficiency while significantly reducing their expenditures.
For example, in 1986, Alberta Power Limited wanted to increase the capacity of one of its substations which was surrounded by buried pipelines. Fearing that a ground fault at the station or on the transmission line could damage the pipelines, the pipeline company refused to approve the expansion unless expensive mitigation matting was deployed around many pipeline sections.
Fortunately, SES demonstrated to the satisfaction of both parties that the projected expansion would actually result in a slight decrease in interference levels, thus eliminating the need for the proposed mitigation.
2. Electromagnetic and Conductive Interference Analysis
Low frequency electromagnetic interference effects caused by power system transmission lines on pipelines, railways, telecommunication lines and similar long conductors, during steady state and fault conditions.
Low frequency conductive interference effects caused by power system grounds on non-energized metallic structures.
With the current trend towards minimizing the amount of land available to private and public utilities, installations such as powerlines, pipelines, railway tracks, communication lines and similar services are being forced to share relatively narrow tracts of land, thus increasing the need for mitigation systems.
Responding to this need, SES has developed a design which combines the functions of grounding, gradient control, and cathodic protection into a single mitigation system. SES's design is a safer and more economical alternative to the "cancellation wire" technique which transfers high pipeline potentials to the opposite side of the right-of-way, where hazardous potentials are least expected. Finally, SES has made important contributions to the concept of evaluating interference levels with respect to local earth rather than remote earth. This has resulted in a more precise reference point and greatly reduced mitigation requirements.
3. High Frequency and Transient Electromagnetic Field Analysis
SES's software can accurately compute the electric and magnetic fields caused by currents flowing in overhead and buried conductors, including house wiring and water pipes! This software can analyze:
Electric and magnetic fields generated by arbitrarily oriented current-carrying conductors located above ground and partially or totally buried in soil. Computations are carried out accurately at frequencies ranging from a few hertz to hundreds of megahertz.
Effects of lightning strikes or high current transient surges on power system networks, pipelines and similar nonenergized installations.
Lightning and high current transient surges can cause significant equipment damage and induce lethal stress voltages. Recently SES helped Florida Power & Light successfully solve a capacitor transient discharge problem and assisted South Carolina Electric & Gas in solving a distribution line lightning problem.
4.Soil Structure Measurement & Interpolation Analysis
New soil resistivity measurement procedures developed by SES make it possible to obtain accurate data and achieve significant cost saving by diminishing the need to overdesign grounding and mitigation systems. These procedures provide: