![]() ![]() In this way, cover all possible scenarios, and ensure the subsequent grounding analysis is conservative.Ĭreation of additional analysis scenarios by combining data from different traverses. Possibility of creating limiting soil models ( Upper Limit and Lower Limit) based on envelopes of the data as well as based on the standard deviation of the data at each spacing. Probe depths can also be accounted for.Įasily construct limiting soil models by combining data from multiple traverses (Upper, Lower, Average, or any arbitrary data selection). ![]() Optionally specify the depth of the current and potential probes, for additional accuracy (this is especially beneficial for smaller electrode spacings).Įlectrode arrangements supported by the application. apparent resistance or apparent resistivity). Plot the data choosing a more physically relevant x-axis based on the median probing depth of the array configuration.ĭata can be specified in the system of units of your choice (metric or imperial) and consistent with your instrumentation (i.e. a traverse may start as a Wenner – but finish as a Schlumberger configuration). Continuously vary the ratio of current probe spacing to potential probe spacing (e.g. Input soil resistivity data for multiple traverses and obtained from Wenner, Schlumberger, Dipole-Dipole or Unipolar methods, or specify your own arbitrary arrangement (General method). Vertically layered soils, oriented arbitrarily with respect to the electrode array used for the measurements (presently restricted to two layers)Įxponentially varying soils, useful for computing transmission line parameters, or to represent frozen soils Horizontally layered soils (any number of layers may be specified) With RESAP, you can develop four fundamental types of soil models: to ensure that safety requirements are met with a conservative margin despite the fact that the soil structure model exhibits local variations (multiple soil models within the geographical area of interest). It can also be used to generate limiting soil models, e.g. In addition, RESAP can be used to approximate the real earth structure using a simplified model based on a reduced number of layers specified by the user. Resulting soil structure from a RESAP analysis. Software Updates Licensed Clients Pricing Simplified Fault Current Distribution Analysis Line and Cable Constants (Parameters) & Induction Analysisĭetailed Fault Current Distribution and EMI AnalysisĪutomated Fast Fourier Transform Analysis Low Frequency Grounding / Earthing Analysisįrequency Domain Grounding / Earthing Analysis Integrated and Specialized Software Packages ![]()
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