Common air conditioning rating is giving in BTU/hr. You can converted the rating BTU/hr to kW by multiply BTU/hr with 0.0002931 kW/BTU. You can also estimate the cooling capacity from energy supply, generally COP for air cool air conditioning is 3.5 kWcooling/kWelectricity
KVA=KW*Power factor, considering PF 0.9, 6KVA=KW*0.9 KW=6/.9=6.67
The total kW load is only a guide to the solar panel capacity. Any energy generated by the solar panel will reduce the energy you draw from the grid, which leads directly to less CO2 output at the power plants. But the power plant is still needed for when there is a cloudy day. When it's cloudy the solar panel output is drastically reduced, although they still produce power, as the salesmen are keen to emphasize, but what they don't tell you is that the power output is reduced by about 95%. Also, in many countries, if your panels generate excess electricity you sell it back to the grid, so the capacity of the panels is not critical.
1 MW is 1000 kW therefore 10 MW is equal to 10,000 kW.
First you will need a three phase generator. Mathematically there are 746 Watts per horsepower, but I like to use 1000 Watts for ease of mental calculation. This would mean you would need a 30 kW generator. If using 746 Watts per HP, you would need 22380 Watts, or 23 kW. Make sure this 23 kW is the normal load rating of the generator, not the surge rating! 30 kW would provide more of a safety cushion.
condenser capacity(kw) = compressor cooling capacity (kw) + compressor input (kw) power condenser capacity(kw) = Pf + Pa
That is because the 885kW capacity is its cooling capacity. This is the amount of heat it can take out at the evaporator. The 225kW is the power input to the compressor. This is used to define the Coefficient of Performance of the Chiller (COP), which is 885/225
That depends on the size of the stove, but reckon on about 2 Kw per hotplate, and about 3 Kw per oven.
Yes. 1 MW = 1000 kW, and kW is the same as kWh/h.
There is a website called Diesel service & supply. They offer used generators and parts (including diesel) from 50 kw to 3000 kw. You can filter your searches by company and kw capacity as well.
Think about it. Assuming a total transformer capacity of 60 kV.A, how could it possibly supply a load of 100 kW?
To determine the battery capacity needed for a 20 kVA UPS to provide 30 minutes of backup time, you first need to convert kVA to kW, assuming a power factor of 0.8, resulting in 16 kW. For 30 minutes of backup, you would calculate the energy requirement: 16 kW × 0.5 hours = 8 kWh. Therefore, you would need a battery capacity of at least 8 kWh, but it's advisable to consider additional capacity for efficiency losses and battery discharge characteristics, so a battery rated around 10 kWh would be recommended.
Appliances that can run off 9 kW of electric power include refrigerators, washing machines, dryers, dishwashers, electric ovens, and heaters. It is important to check the power requirements of each appliance to ensure they can be safely operated within the 9 kW capacity.
1TR = 3.5 KW 1TR = 3.5 KW
Frequency is the speed that the generator revolves, not the sizing of the generator.
1,000 w = 1.000 kw 100 w = 0.100 kw 90 w = 0.090 kw
you can not measure the ampres on the cooling capacity of the system. you can only measure ampres on the size of compressor or input kw to air-con. 1.5tons is measuring cooling capacity not electrcity input.