Energy management method using utility-generated signals
First Claim
1. In an energy management method for controlling electrical power consumption in each of a plurality of residential circuits having a plurality of loads including non-thermal loads having unpredictable demands, each said circuit having a controller for shedding and restoring certain ones of the loads in said residential circuit and including means for receiving utility-generated shed-restore signals form a remote location, and controlling the use by the residential consumer of certain of the loads in his residence by utility-generated shed-restore signals, the improvement in said method comprising the steps of:
- (a) providing each residential circuit with a variable-limit controller which limits the total demand imposed by said plurality of loads, including (i) means for receiving utility-generated demand-limit signals from a remote location; and
(ii) means whereby each said consumer can optionally override said demand-limit signals;
(b) establishing a total demand limit for each of said residential circuits which is independent of which of the specific loads in said residential circuit are responsible for said demand;
(c) generating signals from said remote location to reduce said total demand limit by an equal percentage in all of said residential circuits;
(d) measuring the total load on said utility imposed by said plurality of residential circuits; and
(e) generating successive demand-limiting signals until said total load on said utility is reduced to a value preselected by said utility.
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Abstract
An energy management method for controlling electrical power consumption in each of a plurality of residential circuits having a plurality of loads. Each residential circuit is provided with a variable limit demand controller which includes means for receiving utility-generated demand limit signals from a remote location. A demand limit is established for each of the residential circuits which is independent of which of the specific loads in the circuit are responsible for the demand. Signals are generated by the utility from a remote location to vary the limit proportionately in all of the residential circuits.
In a preferred embodiment, in which the loads in each of the circuits include both resistive and reactive loads, each circuit is provided with separate variable limit demand controllers for the resistive loads and for the reactive loads. Separate demand limits are established for each of the residential circuits and utility-generated signals are sent from a remote location to each of the demand controllers to vary the resistive and reactive limits proportionately in all of the residential circuits. The resistive and reactive demand limits are adjustably varied to improve the power factor of the load on the utility power-generating facilities.
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Citations
3 Claims
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1. In an energy management method for controlling electrical power consumption in each of a plurality of residential circuits having a plurality of loads including non-thermal loads having unpredictable demands, each said circuit having a controller for shedding and restoring certain ones of the loads in said residential circuit and including means for receiving utility-generated shed-restore signals form a remote location, and controlling the use by the residential consumer of certain of the loads in his residence by utility-generated shed-restore signals, the improvement in said method comprising the steps of:
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(a) providing each residential circuit with a variable-limit controller which limits the total demand imposed by said plurality of loads, including (i) means for receiving utility-generated demand-limit signals from a remote location; and
(ii) means whereby each said consumer can optionally override said demand-limit signals;(b) establishing a total demand limit for each of said residential circuits which is independent of which of the specific loads in said residential circuit are responsible for said demand; (c) generating signals from said remote location to reduce said total demand limit by an equal percentage in all of said residential circuits; (d) measuring the total load on said utility imposed by said plurality of residential circuits; and (e) generating successive demand-limiting signals until said total load on said utility is reduced to a value preselected by said utility. - View Dependent Claims (2, 3)
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Specification