Watt-hour meters- principle and operation




The utility company is not too interested in how much power youre using with one appliance,or even how much power a single household is drawing, at any given time. Byfar the greater concern is the total energy that is used over a day, a week, a month or ayear. Electrical energy is measured in watt hours, or, more commonly for utility purposes,in kilowatt hours (kWh). The device that indicates this is the watt-hour meteror kilowatt-hour meter.


The most often-used means of measuring electrical energy is by using a small electricmotor device, whose speed depends on the current, and thereby on the power at aconstant voltage. The number of turns of the motor shaft, in a given length of time, is directly proportional to the number of kilowatt hours consumed. The motor is placed at the point where the utility wires enter the house, apartment or building. This is usually at a point where the voltage is 234 V. This is split into some circuits with 234 V, for heavy-duty appliances such as the oven, washer and dryer, and the general household fines for lamps, clock radios and, television sets.
Youve surely seen the little disk in the utility meter going around and around,

sometimes fast, other times slowly. Its speed depends on the power youre using. The total number of turns of this little disk, every month, determines the size of the bill you will getas a function also, of course, of the cost per kilowatt hour for electricity. Kilowatt-hour meters count the number of disk turns by means of geared, rotary drums or pointers. The drum type meter gives a direct digital readout. The pointer type has several scales calibrated from 0 to 9 in circles, some going clockwise and others going counterclockwise. Reading a pointer type utility meter is a little tricky, because you must think in whatever direction (clockwise or counterclockwise) the scale goes. An example of a pointer type utility meter is shown in Fig. shown below. 




Read from left to right. For each little meter, take down the number that the pointer has most recently passed. Write down the rest as you go. The meter in the figure reads 3875 kWh. If you want to be really precise, you can say it reads 3875-1/2 kWh.
Watt-hour meters- principle and operation Watt-hour meters- principle and operation Reviewed by Bibi Mohanan on June 19, 2016 Rating: 5

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