Engineering Tools
Our platform offers specialized tools for cathodic protection engineering
Pile Anode Optimiser
Advanced genetic algorithm-based tool for optimizing anode distribution in cathodic protection systems. Balances material efficiency with installation complexity for optimal protection solutions.
CP System Selection
Interactive tool for selecting the most suitable cathodic protection system based on soil resistivity and current requirements. Helps determine whether to use galvanic anodes or impressed current systems.
Galvanic Anode Calculator
Comprehensive calculator for determining the number of galvanic anodes needed for cathodic protection systems, considering both resistance and capacity-based requirements.
Deep Well Anode Calculator
Calculate resistance to remote earth and design parameters for deep well anode groundbed systems, including active zone, cable requirements, and coke breeze specifications.
Anode Polarization Simulator
Advanced 3D simulation tool for analyzing anode polarization effects and potential distribution in cathodic protection systems. Visualize protection coverage and optimize anode placement.
Telluric Current Simulator
Advanced simulation tool for analyzing telluric current interference on pipeline systems. Calculate voltage distributions, assess grounding requirements, and visualize interference effects with interactive plots.
Water Galvanic Calculator
Advanced Excel-like calculator for marine structure surface areas and cathodic protection requirements. Calculate anode weights and current requirements for piles and structures in marine environments.
Tank External Calculator
Calculate the ribbon and distributor bar total length and the anode's resistance to remote earth using perpendicular chord method for tank bottom cathodic protection systems.
Standard Finder
Advanced search tool powered by AI for finding and accessing relevant cathodic protection and corrosion technology standards, specifications, and technical documents.
Lightning Voltage Mitigation
Analyze ground potential rise (GPR) due to lightning strikes and evaluate mitigation strategies using grounding electrodes with interactive contour plots.