The traditional method of reactive energy compensation is to directly connect the capacitor banks to the main network.
However, it is not suitable to connect the capacitor banks to the network without a reactor because of the reasons below:
-If there are harmonic currents produced by non-linear load in a facility.
-The capacitor banks enter into resonance with inductive loads and for that reason, breakers run into nuisance tripping.
-Premature failure of the capacitor banks.
THE BENEFITS OF USING DE-TUNED CAPACITOR BANKS
-Eliminates the possibility of resonance
-Prevents increase in harmonic currents
-Prevents the breakdown of the capacitors and contactors; reduces maintanence costs and eliminates the risk of paying reactive fee due to the capacitor banks capacitance value loss
-Extends the lifetime of the capacitor banks
-Prevents unwanted production stop caused by unnecessary nuisance tripping of the main circuit breakers of the
-All cabling is engineered with flexible NYAF cables and is conformable with fuse ampere value
-Energy could be extracted from the main bar without fenestration
-The body and interior installation carriers assembled with perforated profile cap screws. Universal and serial layout potentiality with square hole system
-2 mm sheet iron, RAL 7032 powder paint
-2mm sheet iron, galvanized after engraving the interior installation carriers
-Panels with one lid in front, side and back lids with perforated sheet iron for ventilation
-The copper bar is placed at the top of the panel, which is equipped with NH-fuse switch disconnector, contactor, reactor and capacitor in descending order. Capacitors are placed at the bottom of the panel, which has the lowest temperature