Cableizer handles multiple circuits with different phase arrangements (trefoil, flat, staggered) and accounts for mutual heating. It can calculate derating factors for cables touching, spaced, or laid in close proximity to other heat sources (including external pipelines or other cable circuits).
Designing power cable systems has traditionally been a complex, time-consuming process involving thick manuals and rigid desktop software. But as the energy sector shifts toward smarter, more efficient grids, the tools we use must evolve too.
: Unlike traditional competitors like CYMCAP, you don’t need a specialized workstation or long installation processes. cableizer software
In crowded cities, new cables often have to pass near existing heat sources (like steam pipes or other power lines). Cableizer’s calculations allow engineers to see how surrounding heat sources will derate the capacity of their new cable. Data Centers
Meeting modern data management requirements, Cableizer allows datasheets of objects such as cables and heat sources, along with result reports of project simulations, to be downloaded both in PDF and CSV (comma-separated values) format. The PDF format produces nicely formatted, human-readable documentation suitable for sharing with stakeholders, while the CSV format supports manipulation in spreadsheet applications like Microsoft Excel, LibreOffice Calc, or Apple Numbers. Additionally, the content of cable datasheets can be flexibly defined, enabling users to select which parameters to include or exclude, and the software calculates many additional parameters such as mass of all cable layers, minimal bending radius, gross heat of combustion, heat energy content, embodied energy, embodied carbon, and cost of metals in the cable. But as the energy sector shifts toward smarter,
The Trough module provides engineers with the flexibility to calculate cable current ratings for multiple different cable systems or heat sources in empty or filled troughs. Users can choose from five distinct calculation methods: the standard IEC 60287 approach, IEE Wiring Regulation (BS 7671), Slaninka I (assuming all equal resistivities), Slaninka II (handling different resistivities), or the Anders method which extends Slaninka II specifically for empty (air-filled) troughs. This variety of calculation options ensures that users can select the most appropriate method for their specific project conditions and regional regulatory requirements.
Unlike traditional software that requires high-spec workstations and physical security dongles, Cableizer is . This means: For short-term and emergency overloads
Cableizer doesn’t “approximate” ratings—it rigorously applies the full IEC 60287 series for steady-state (100% load factor) conditions. For short-term and emergency overloads, it implements the transient rating methods of IEC 60853. This dual compliance ensures your designs meet international regulatory and safety standards.
Real-world cable laying is rarely simple. Cableizer excels at modeling: with various backfill materials.
In a demonstration of its commitment to cutting-edge technology, Cableizer is the only commercial software on the market able to calculate compressed air cables (produced by Hivoduct) as well as gas insulated lines filled with nitrogen and SF6. These specialized cable types represent emerging technologies for high-power transmission in constrained environments, and Cableizer's support for them positions the software at the forefront of innovation.
, where convective cooling plays a major role. 3. Finite Element Method (FEM) Integration