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{{Orphan|date=December 2009}}
{{Orphan|date=December 2009}}


'''Backfeeding''' occurs when [[electric power]] flows in the opposite direction from its usual flow. An alternating current [[power station]] typically delivers power to the [[power grid]] by inducing a [[current (electricity)|current]] to flow into the power grid when the voltage is positive, and inducing it to flow out of the power grid when the voltage is negative, and a typical power grid load (e.g. factory or home) induces current to flow out of the power grid when the voltage is positive and into the power grid when the voltage is negative. If either of these types of facilities starts inducing current like the other, then backfeeding is occurring. A power station will typically backfeed when it is shut down, due to local loads (e.g. lights or repair equipment). A power grid load may backfeed if it has [[distributed generation]] installed, such as a grid-connected [[photovoltaic]] [[solar power]] system or a [[microturbine]]-based power generator. It is also possible for an electric motor to temporarily backfeed if it is mechanically overpowered (see [[regenerative braking]]).
'''Backfeeding''' occurs when [[electric power]] is being induced into the local power grid. Power flows in the opposite direction from its usual flow. An alternating current (AC) [[power station]] typically delivers power to the [[power grid]] by inducing a [[current (electricity)|current]] to flow into the power grid when the voltage is positive, and inducing it to flow out of the power grid when the voltage is negative, and a typical power grid load (e.g. factory or home) induces current to flow out of the power grid when the voltage is positive and into the power grid when the voltage is negative. If either of these types of facilities starts inducing current like the other, then backfeeding is occurring. Generators that are backfeeding pumping energy into the grid making it available for all to use.

There are also hazards created by backfeeding. When the grid goes down, like in a storm, and you are STILL generating into the grid, now you have created a dangerous situation. Because when the grid goes down and the linemen need to work on it, they disconnect the SOURCE of the voltage potential from the nearest substation. But of you are still pumping potential INTO the grid when they think it is going to be dead, you can kill them. Or if not that and they detect live voltage potential on the line after they have opened the substation connection, how are they going to know where the voltage is coming from? They can find it, EVENTUALLY, but it takes time to trace it back and isolate it. In the mean time thousands of people are screaming at them to get their power back.

A power station will typically backfeed when it is shut down, due to local loads (e.g. lights or repair equipment). A power grid load may backfeed if it has [[distributed generation]] installed, such as a grid-connected [[photovoltaic]] [[solar power]] system or a [[microturbine]]-based power generator. It is also possible for an electric motor to temporarily backfeed if it is mechanically overpowered (see [[regenerative braking]]).


For cost reasons, many of the circuit (overcurrent) protection and power quality control (voltage regulation) devices used by electric utility companies are designed with the assumption that power always flows in one direction. Setting up an interconnection agreement for equipment designed to backfeed between an electric utility customer with distributed generation and their power company can involve nontrivial engineering and possibly equipment upgrade costs to keep the distribution circuit properly protected. Such costs may be minimized by limiting distributed generation capacity to less than is locally consumed and guaranteeing this condition by installing a reverse-power relay that opens if backfeeding occurs.
For cost reasons, many of the circuit (overcurrent) protection and power quality control (voltage regulation) devices used by electric utility companies are designed with the assumption that power always flows in one direction. Setting up an interconnection agreement for equipment designed to backfeed between an electric utility customer with distributed generation and their power company can involve nontrivial engineering and possibly equipment upgrade costs to keep the distribution circuit properly protected. Such costs may be minimized by limiting distributed generation capacity to less than is locally consumed and guaranteeing this condition by installing a reverse-power relay that opens if backfeeding occurs.



[[Category:Electric power distribution]]
[[Category:Electric power distribution]]

Revision as of 19:08, 1 February 2012

Backfeeding occurs when electric power is being induced into the local power grid. Power flows in the opposite direction from its usual flow. An alternating current (AC) power station typically delivers power to the power grid by inducing a current to flow into the power grid when the voltage is positive, and inducing it to flow out of the power grid when the voltage is negative, and a typical power grid load (e.g. factory or home) induces current to flow out of the power grid when the voltage is positive and into the power grid when the voltage is negative. If either of these types of facilities starts inducing current like the other, then backfeeding is occurring. Generators that are backfeeding pumping energy into the grid making it available for all to use.

There are also hazards created by backfeeding. When the grid goes down, like in a storm, and you are STILL generating into the grid, now you have created a dangerous situation. Because when the grid goes down and the linemen need to work on it, they disconnect the SOURCE of the voltage potential from the nearest substation. But of you are still pumping potential INTO the grid when they think it is going to be dead, you can kill them. Or if not that and they detect live voltage potential on the line after they have opened the substation connection, how are they going to know where the voltage is coming from? They can find it, EVENTUALLY, but it takes time to trace it back and isolate it. In the mean time thousands of people are screaming at them to get their power back.

A power station will typically backfeed when it is shut down, due to local loads (e.g. lights or repair equipment). A power grid load may backfeed if it has distributed generation installed, such as a grid-connected photovoltaic solar power system or a microturbine-based power generator. It is also possible for an electric motor to temporarily backfeed if it is mechanically overpowered (see regenerative braking).

For cost reasons, many of the circuit (overcurrent) protection and power quality control (voltage regulation) devices used by electric utility companies are designed with the assumption that power always flows in one direction. Setting up an interconnection agreement for equipment designed to backfeed between an electric utility customer with distributed generation and their power company can involve nontrivial engineering and possibly equipment upgrade costs to keep the distribution circuit properly protected. Such costs may be minimized by limiting distributed generation capacity to less than is locally consumed and guaranteeing this condition by installing a reverse-power relay that opens if backfeeding occurs.