Billing Energy Sample Clauses

Billing Energy. Billing Energy shall be determined by applying the applicable billing methodology to total meter readings during the Billing Period. See Section IV.
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Billing Energy. The kilowatt-hours charged by the Authority to each Customer will be the total number of kilowatt-hours recorded on the Customer’s meter for the Billing Period multiplied by a percentage based on the LFS methodology, unless the Customer and the Authority agree in writing to an alternative billing methodology and the Customer’s local electric utility provides its consent if the Authority determines that such consent is necessary.
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Billing Energy. 2.01 The Total Metered Energy shall be equal to the measured energy at the Point of Measurement, plus energy measured at other points necessary to accurately capture and bill City’s load, adjusted for losses to the Point of Delivery. The Point of Measurement and Point of Delivery are defined in Exhibit A to the Agreement and in Exhibit D to the Amended and Restated Agreement.
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Billing Energy. Billing energy applicable to this rate is equal to the total energy provided at the load center minus the actual energy provided to Rate A, Rate B, and Rate C, Rate G, and special contract participants. DATE OF ISSUE: October 2, 2017 April 1, 2021 DATE EFFECTIVE: Service rendered on and after November 2, 2017 May 1, 2021 P.S.C. No. 35, Original First Revised Sheet No. 12 Canceling P.S.C. No. 34, Third Revised Sheet No. 18 35, Original Sheet No. 12
Sample 1
Billing Energy. The Billing Energy in any Billing Period shall be the metered energy for the period as determined under paragraphs 4 and 5 giving effect to all applicable adjustments as required, including those for Schedules X-0, X-0, X-0, X-0 and B-6.
Sample 1
Billing Energy. The total energy produced, expressed in kWh, from the Generation Facilities under this Excess Capacity Agreement (whether or not requested by Seminole), less the Customer-Based Generation for the same period, will be added back to the Delivery Point Load for purposes of determining the Seminole WPC Non-Fuel Energy Charges and the Seminole WPC Fuel Charges under the Wholesale Rate Schedule to assure Member does not realize additional payments associated with avoided energy charges.
Sample 1
Billing Energy. The Billing Energy in each billing period shall be the respective Participant’s 10 scheduled or actual, as appropriate, delivery of its Project Share in kilowatt-hours (kWh) at the 11 Delivery Point.
Sample 1
Billing Energy. The kilowatt-hours (kWh) charged by the Authority to the Customer will be based on the Load Factor Share of the total number of kilowatt-hours recorded on the Authority’s revenue grade meters for the Billing Period as follows. • If the Peak Demand is higher than the Contract Demand in a given month, the Billing Energy shall be equal to the product of the Contract Demand multiplied by the Native System Load Factor and number of hours in the Billing Period. • If the Peak Demand is less than the Contract Demand, the Billing Energy shall be equal to the total number of kilowatt-hours recorded on the Authority’s revenue grade meters for the Billing Period.
Sample 1

Related to Billing Energy

  • Electric Storage Resources Developer interconnecting an electric storage resource shall establish an operating range in Appendix C of its LGIA that specifies a minimum state of charge and a maximum state of charge between which the electric storage resource will be required to provide primary frequency response consistent with the conditions set forth in Articles 9.5.5, 9.5.5.1, 9.5.5.2, and 9.5.5.3 of this Agreement. Appendix C shall specify whether the operating range is static or dynamic, and shall consider (1) the expected magnitude of frequency deviations in the interconnection; (2) the expected duration that system frequency will remain outside of the deadband parameter in the interconnection; (3) the expected incidence of frequency deviations outside of the deadband parameter in the interconnection; (4) the physical capabilities of the electric storage resource; (5) operational limitations of the electric storage resources due to manufacturer specification; and (6) any other relevant factors agreed to by the NYISO, Connecting Transmission Owner, and Developer. If the operating range is dynamic, then Appendix C must establish how frequently the operating range will be reevaluated and the factors that may be considered during its reevaluation. Developer’s electric storage resource is required to provide timely and sustained primary frequency response consistent with Article 9.5.5.2 of this Agreement when it is online and dispatched to inject electricity to the New York State Transmission System and/or receive electricity from the New York State Transmission System. This excludes circumstances when the electric storage resource is not dispatched to inject electricity to the New York State Transmission System and/or dispatched to receive electricity from the New York State Transmission System. If Developer’s electric storage resource is charging at the time of a frequency deviation outside of its deadband parameter, it is to increase (for over-frequency deviations) or decrease (for under-frequency deviations) the rate at which it is charging in accordance with its droop parameter. Developer’s electric storage resource is not required to change from charging to discharging, or vice versa, unless the response necessitated by the droop and deadband settings requires it to do so and it is technically capable of making such a transition.