Manufacturer, supply, service & maintenance of all control & H.T panels.
The following details should be added in this section. “We are manufacturing all types of Control Panels.
We specialize in a range of Power and Control Panels for all kinds of industries.
We are a manufacturer, Supplier & service provider of High-Quality AMF, Synchronizing, PCC, MCC, APFC, AC/DC Drives Panel, PLC Panel, RTCC, M. Box and control Panel
We are empowered with a team of dedicated engineers, electricians, and other skilled personnel, the team is well aware of the latest technology, which leads us to provide satisfactory services to customers all over India.”
Manufacturer, supply, service & maintenance of all control & H.T panels.
Suppose you order a mug of cappuccino. You pay for a “full” mug of cappuccino, but instead, what you get is a mug partially filled with froth i.e., less coffee.
If the coffee in your mug is real power (i.e. kWh), full glass is total power (i.e. kVAh), and froth in the mug is reactive power (i.e. kVArh). Power factor is the proportion or percentage of mug filled with coffee, i.e. kWh/kVAh.
If the coffee in one full mug is 75% and 25% froth, your power factor is 0.75. Similarly, if you consume 1 kWh of power with 0.75 power factor, the energy that the utility has to supply is 1/0.75 = 1.33 kVAh. The 0.33 kVAh of energy is lost or froth in the coffee mug.
Thus, If the power factor is 1 or close to 1 then 1 kWh of electrical equipment would take 1 kWh of power from the utility. But, since it is drawing more energy from the utility there is penalty for it, which is called Power Factor Penalty.
Eliminate Power Factor Penalty
You can Save upto 50% on your Non-Domestic / Commercial Bills. Eliminate Power Factor Penalties by installing #Dnyanlalit Automatic Power Factor Controller (APFC) and save on your electricity bills
How APFC Panel Reduces Your Electricity Bill?
LOW POWER FACTOR
For 30 kW or 40 hp Load @ 0.7 PF
kVAh = P*t/ P.F
For 24hrs kVAh = 30*24/ 0.7
kVAh / day = 1028.57 kVAh
OPTIMAL POWER FACTOR
For 30 kW or 40 hp Load @ 0.98 PF
kVAh = P*t/ P.F
For 24hrs kVAh = 30*24/ 0.98
kVAh / day = 734.69 kVAh