Low-Voltage windings for furnace transformers

Design Rationale

Low-voltage windings for furnace transformers operate under the most demanding current conditions in industrial transformer technology: voltages below 1.5 kV combined with currents in the range of tens of kiloamperes. This extreme current density makes conventional helical or layer winding constructions unsuitable – the conductor cross-section required to carry the rated current cannot be accommodated in a single helical layer without compromising the winding’s mechanical stability and thermal performance.

The solution adopted for this application is to manufacture the coil as a set of discs with a limited number of turns, arranged axially and connected in parallel. Parallel connection of multiple discs distributes the total current among the disc stack, reducing the current per disc to a manageable level while the axial arrangement preserves the winding’s mechanical rigidity against the very high radial and axial electromagnetic forces generated during furnace operation – including the cyclic short-circuit conditions characteristic of electric arc furnace duty.

Discs are separated by dedicated spacers that simultaneously provide mechanical support, define the inter-disc insulation clearance, and create oil channels for direct cooling of each disc’s conductor surface.

Technical Specifications

Technical Note

Current Balancing in Parallel Discs – Equal current distribution among parallel discs is achieved by careful attention to the symmetry of the inter-disc connections (leads and busbars) and, where necessary, by transposing the parallel paths over the winding height. Impedance asymmetry between parallel paths – even at the level of a few microohms – generates circulating currents that overload individual discs and reduce overall winding efficiency. C.E.M.’s design process includes explicit verification of parallel path balance as a standard step for all furnace LV windings.