The Elterm Low Loss Header SKE 2DC+ is engineered to optimize hydraulic performance by minimizing pressure drops in heating systems. Its advanced design ensures efficient flow distribution, enhancing system reliability and energy savings. Ideal for professional installations, this header supports precise temperature control and reduces operational costs through improved heat transfer efficiency.
Condensing Distribution Low Loss Header 8 TAPPINGS - HORIZONTAL
SKE are available in standard and Condens (DC) version
Condens units have built-in INOX flow guide
The flow guide increases the condensing gas boiler and heat pump's efficiency.
Flow guide enables alternate connection of pump groups with a spacing of 125mm.
The standard version enables limited connection of pump groups
Patented neodymium magnet separator SMART included
Universal construction (adaptation set) enables 360° installation
Possibility to connect 2, 3 or 4 (4DC unit) pump groups
SKE 2DC+ are part of ready hydraulic sets - Company
SKE are EPP insulated (35kW version in rubber insulation)
Horizontal SKE distribution low loss headers (hydraulic balancers) – 2-way basic versions Distribution low loss header (SKE) separates the boiler cycle from the heating cycle. SKEs are usually applied in medium or high power rating heating systems (practically, from 25 kW upwards), comprised of one or more boilers, particularly those comprised of several heating cycles (e.g. floor heating cycle + radiator heating cycle + hot utility water heating cycle). Applying a hydraulic unit in these cycles eliminates the need to balance pump flows – SKE enables independent operation of individual cycles and uninterrupted pump performance (no pump interference). Another essential feature is its desilting and venting capability. Moreover, thanks to the inserted neodymium magnet separator (SMART), tiny magnetic shards are stopped from being spread into the whole system, which is directly responsible for causing rust and corrosion. Following versions: SKE 40 2D+ and 70 2D+ - protect solid fuel boilers from too low return water temperature.
