Two irons or a 2-kW room heater, or about thirty 60 watt lights, or about a hundred and thirty 15-watt compact fluorescent bulbs.
Kilowatts per hour (kWh) is a unit of energy that measures how much power is used over time. It represents the consumption of one kilowatt of power for one hour. To find the total energy consumption in kWh, you multiply the power in kilowatts by the number of hours the power is used. For example, using 2 kilowatts for 3 hours would equal 6 kWh (2 kW × 3 h = 6 kWh).
360 kilowatts would power about 1000 TVs, indefinitely. If 360 kilowatts of power were used, the energy used in 1 hour would be 360 kilowatt-hours.
There are 1,000 kilowatts in a single megawatt. These are measures of electrical power which are based on the metric system.
If a dynamo puts out 100,000 kilowatts and the area it services only requires 80,000 kilowatts; then the remaining 20,000 kilowatts is known as its residual power. This extra capacity is useful in withstanding power spikes when consumer demand increases during peak periods.
Total power output of the sun: 3.86 x 1023 kilowatts (386,000,000,000,000,000,000,000 kilowatts) Total solar power received on Earth: 1.74 x 1014 kilowatts (174,000,000,000,000 kilowatts) Solar power falling on 1 square meter of ground: 750 watts (0.75 kilowatt) Output of a 1 square meter solar panel: 120 watts (0.12 kilowatt)
A 1200 watt resistive load hair dryer is equivalent to 1.2 kw (kilowatts).
The formula is Kilowatts = I x E x 1.73 x pf/1000.
The Watt is the fundamental unit for power in the mks unit system of measurements. Kilowatts = 1000 Watts; so engine Kilowatts are the units used to measure the power of an engine. Truth be known, though. Kilowatts are more likely used for electric motors than they are for internal combustion engines. A common unit for engine power is horse-power (HP), but 1 HP = 746 Watts. So Watts can be used to measure engine power as well.
Usually by horse power, in metric kilowatts.
kilowatts
A 200 kilowatt nuclear power source can potentially power small-scale applications like homes or small businesses. It could also power machinery or equipment in an industrial setting, depending on the energy requirements of the specific operation.
-- 80% of 100 kilowatts = 80 kilowatts-- Ignoring the power factor, 80 kilowatts is supplied from a 220-volt sourcewhen the current is 3637/11Amperes. (rounded)