Descriptions
CDEGS (Current Distribution, Electromagnetic Fields, Grounding and Soil Structure Analysis) is a powerful set of integrated software tools designed to accurately analyze a variety of electromagnetic related problems encountered in all industries involving electric networks.Complex soil structures such as the multi-region, horizontally layered soil with an arbitrary number of layers and resistivities and single-regions consisting of cylindrical, hemispherical, hemispheroidal, inclined, vertical and horizontal layers. Finally, horizontal multilayer soils that can include embedded finite soil volumes with arbitrary resistivities are available to help you tackle the most challenging project.
The CDEGS software package (Current Distribution, Electromagnetic Fields, Grounding and Soil Structure Analysis) is dedicated to accurately analyze problems involving grounding, electromagnetic fields, electromagnetic interference including AC/DC interference mitigation studies and various aspects of cathodic protection and anode bed analysis with a global perspective. CDEGS software suite of packages consists of eight powerful and accurate computation engines (modules) and several software automation and utility tools that bind the various components together. CDEGS computes conductor currents and electromagnetic fields generated by an arbitrary network of energized conductors anywhere above or below ground for normal, fault, lightning and transient conditions. CDEGS models simple and multi-component conductors, including bare, coated pipes and pipe-enclosed cable systems buried in complex soil structures. CDEGS coupled with toll-free support from the world’s leading R&D design team, provide you with an array of cost-effective learning aids for areas ranging from simple grounding grid design to the behavior of complex networks of aboveground and buried conductors energized by lightning or other transients.
Features of SES CDEGS Suite :
- Direct solutions of Maxwell’s equations
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Circuit-based analyses
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Finite element methods
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Inversion algorithms
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Fast Fourier transforms and transient analysis
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Hybrid methods
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Stunning graphics
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Conductors and pipes, physical dimensions and electromagnetic properties
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Metallic Plates
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Magnetic induction
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Capacitive effects
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Avoid simplifying assumptions and model any system realistically
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Compute currents flowing in arbitrary networks of conductors, and their associated electric fields, magnetic fields and scalar potentials
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Take into account the electrical complexity of soil structures
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Accurately calculate line parameters of arbitrary 3D networks
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Determine realistic current distributions between all metallic paths connected to electric networks subjected to various fault scenarios
System Requirements
Operating System
Windows OS 10, 11 (64 bit)
Windows Server 2022, or Windows Server 2016/2019
CPU
Required: Intel i3 or equivalent
Recommended: Intel Core i9, multi-core
RAM
Required: 16 GB
Recommended: 64 GB (for parallel core runs)
Video adapter
Required: Minimum SXGA display (1280×1024)
Recommended: UHD display (3840×2160)
Disk space
Required: 10 GB required by the installer
Recommended: 500 GB for storing computation files
Pictures
Installation Guide
Check the Readme.txt file in Crack folder
Buy
For any question Contact us
Size
2.7 GB
