Having this: 400 sqf/ ton and 1 ton= 12000 BTU/h
The area to be heated is 162,000 sqf so 162000/400= 405 tons
405 tonsx12000=4'860,000 btuh
Converting 4'860,000 btu to watts=1424325.24 watts/hr to heat a 162,000 sf area
Regards
"Watt" is a rate of moving energy. Anynumber of watts can heat your liters,but the less watts you use, the longer the job will take.
1000 watts is a measure of power, not heat. Power is the rate at which energy is used or transferred. To determine the amount of heat generated by 1000 watts, additional information about the time over which the power is used or the efficiency of the system is needed.
The power consumption of a heat lamination machine typically ranges from 300 watts to 1500 watts, depending on the size and capacity of the machine.
Since the Coefficient of Performance (COP) is 2.5, for every 1 watt of electricity input, the heat pump produces 2.5 watts of heating or cooling output. Therefore, if 200 watts of electricity are used, the heat pump would produce 2.5 times 200, which equals 500 watts of equivalent heat output.
54 Watts is the eqivianlient to removing 1 watt of heat
"Watt" is a rate of moving energy. Anynumber of watts can heat your liters,but the less watts you use, the longer the job will take.
1000 watts is a measure of power, not heat. Power is the rate at which energy is used or transferred. To determine the amount of heat generated by 1000 watts, additional information about the time over which the power is used or the efficiency of the system is needed.
The most efficient watts to heat calculator for determining the power needed to generate a specific amount of heat is the Joule heating calculator.
The number of watts of heat needed to maintain the desired temperature in a well-insulated room depends on factors such as the size of the room, the outside temperature, and the insulation quality. It is typically calculated using the formula: Watts (Room Area x Temperature Difference x U-Value) / Insulation Quality.
Yes
Assuming you got that number off an electric kettle it is because that is how much power is needed to heat the water. The number of watts actually measure how much energy the kettle is designed to use. Water is very hard to heat compared to other liquids(or to cool). So it takes a lot of watts to get the kettle to heat the water.
cook shrimp in oven/ crock pot then freeze, when needed heat in microwave for 1,500 watts till warmth
The amount of heat produced by a CPU can vary depending on factors such as the specific model, workload, and cooling efficiency. Modern CPUs can generate anywhere from a few watts to over a hundred watts of heat under load. Adequate cooling solutions are needed to dissipate this heat to avoid overheating.
On average, a human body produces about 100 watts of heat.
To convert heat into watts, you can use the formula: Power (in watts) Heat (in joules) / Time (in seconds). This formula helps you calculate the amount of power generated from the heat energy over a specific period of time.
The amount of heat being generated by the device is measured in watts.
The power consumption of a heat lamination machine typically ranges from 300 watts to 1500 watts, depending on the size and capacity of the machine.