CDeGS Malz is an advanced, high-performance feature designed for cutting-edge applications. The term "CDeGS" stands for a proprietary combination of technologies and materials, while "Malz" refers to a specific implementation or product line within this feature family. This document provides an in-depth look at the CDeGS Malz feature, including its components, functionalities, and applications.
Engineers utilize for specialized studies that require high precision in modeling buried structures:
The accuracy of a MALZ study is heavily dependent on the soil model. Users typically input data from Wenner or Schlumberger soundings. MALZ can interpret this data to build a "Resistivity Sounding" model, which is then simplified into a Horizontal Multilayer model (e.g., a two-layer model with a top layer of higher resistivity and a bottom layer of lower resistivity). cdegs malz
: A thin, highly specialized interface layer ensures seamless interaction between the CDeGS core, the Malz matrix, and external systems. This layer is crucial for efficient data exchange, energy transfer, or material interaction, depending on the application.
: The Malz matrix allows the feature to adapt to different conditions and requirements, making it versatile for various uses. CDeGS Malz is an advanced, high-performance feature designed
These computed values are compared against the Allowable Touch and Step Voltages (often calculated per IEEE Std 80) to determine if the design is safe.
However, real-world conditions rarely align with these simplifications. Soil is typically horizontally stratified, and grounding grids often contain complex geometries, ground wells, and interconnections to metallic infrastructure. The module of CDEGS is designed to address these complexities by solving the electromagnetic field equations for conductors embedded in multilayered soil. Engineers utilize for specialized studies that require high
is a high-performance computation module within the CDEGS software suite (Current Distribution, Electromagnetic Fields, Grounding and Soil Structure Analysis) developed by Safe Engineering Services & technologies ltd (SES) . It is specifically designed for the frequency domain analysis of large, buried conductor networks where the assumption of a uniform potential across the grid (equipotential) is no longer valid. Core Technical Capabilities
This paper focuses on the specific capabilities of MALZ for grounding analysis in layered soil structures, which is its primary application.
The CDeGS Malz feature finds applications in multiple sectors: