Battery Energy Storage System Sample Clauses

The Battery Energy Storage System clause defines the requirements and specifications for the installation, operation, and maintenance of a battery-based energy storage solution within a project or facility. It typically outlines the technical standards the system must meet, the responsibilities of the parties regarding system performance, and any safety or regulatory compliance measures. By clearly establishing these parameters, the clause ensures that both parties understand their obligations and helps prevent disputes related to system performance, safety, or integration with other energy infrastructure.
Battery Energy Storage System. The operating parameters of the ▇▇▇▇ for facilities with paired storage shall be as follows: For facilities with variable energy and paired storage: The ▇▇▇▇ shall directly charge storage from the variable resource when the Company Active Power Dispatch is for less than the available resource energy. No more than [___]% of the ▇▇▇▇ energy capacity can be charged from the grid prior to the fifth (5th) anniversary of the Commercial Operations Date. Thereafter, 100% of the ▇▇▇▇ energy capacity can be charged from the grid. [DRAFTING NOTE: 5-YEAR LIMITATION ON GRID CHARGING WILL BE DELETED IF ITC RECAPTURE IS NOT APPLICABLE TO THE ▇▇▇▇.] The ▇▇▇▇ will not be required to discharge more energy than available relative to the available state of charge. For storage used primarily for energy shifting, the ▇▇▇▇ shall be designed for an average annual use of 365 cycle(s) (a cycle is a discharge equal to the portion of the ▇▇▇▇ Contract Capacity allocated for energy shifting, and sufficient charging to return the ▇▇▇▇ to 100% State of Charge) For contingency storage, the ▇▇▇▇ storage technology shall be procured based on required charging/discharging duty for the provision of disturbance frequency response. This response will require fast response outside of a specified frequency deadband (setable between 0.1 and 0.5 Hz), in accordance with specified droop and time parameters. (Historical frequency data for 2 second data resolution samples will be provided to bidders.) (Assumptions and associated restrictions on charging/discharging duty to be supplied by bidders).
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Battery Energy Storage System. The operating parameters of the ▇▇▇▇ for facilities with paired storage shall be as follows: For facilities with variable energy and paired storage: The ▇▇▇▇ shall directly charge storage from the variable resource when the Company Active Power Dispatch is for less than the available resource energy. [Note - modify for grid charging ▇▇▇▇] The ▇▇▇▇ shall/shall not be charged from the Company System during the Term. [If grid charging is limited, describe here.] The ▇▇▇▇ will not be required to discharge more energy than available relative to the available state of charge. The ▇▇▇▇ shall be designed for an average annual use of [xxxx] cycle(s) per day (a cycle is a discharge equal to the ▇▇▇▇ Contract Capacity, and sufficient charging to return the ▇▇▇▇ to 100% State of Charge).
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Battery Energy Storage System. The Project may include an optional battery energy storage system (▇▇▇▇). The ▇▇▇▇ allows for the storing excess solar-generated electricity and supplying it back to the grid when needed. The location of Project facilities including, but not limited to, the solar panels, electrical collection and distribution system, electrical transformers, electrical generation tie lines, roadways, and other related infrastructure, is generally described in the ASC, as modified within the Agreement. The final location of the solar panels and other project facilities within the Project Footprint may vary from the locations shown on the conceptual drawings provided in the ASC but shall be consistent with the conditions of this Agreement and in accordance with the final construction plans approved by EFSEC pursuant to Article IV.S.
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Battery Energy Storage System. The operating parameters of the ▇▇▇▇ for facilities with paired storage shall be as follows: (i) For facilities with variable energy and paired storage: The ▇▇▇▇ shall directly charge storage from the variable resource when the Company Active Power Dispatch is for less than the available resource energy. (ii) No more than [___]% of the ▇▇▇▇ energy capacity can be charged from the grid prior to the fifth anniversary of the Commercial Operations Date. Thereafter, 100% of the ▇▇▇▇ energy capacity can be charged from the grid. [DRAFTING NOTE: 5-YEAR LIMITATION ON GRID CHARGING WILL BE DELETED IF INVESTMENT TAX CREDIT RECAPTURE IS NOT APPLICABLE TO THE ▇▇▇▇] (iii) The ▇▇▇▇ will not be required to discharge more energy than available relative to the available state of charge.
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Battery Energy Storage System. The operating parameters of the Facility shall be as follows: (i) No more than [___]% of the ▇▇▇▇ energy capacity can be charged from the grid prior to the fifth anniversary of the Commercial Operations Date. Thereafter, 100% of the ▇▇▇▇ energy capacity can be charged from the grid. [DRAFTING NOTE: 5-YEAR LIMITATION ON GRID CHARGING WILL BE DELETED IF INVESTMENT TAX CREDIT RECAPTURE IS NOT APPLICABLE TO THE ▇▇▇▇] (ii) For Contract Years that are non-leap years, the Facility shall be discharged no more than the Contract Capacity multiplied by 365 Days in each such Contract Year. For Contract Years that are leap years, the Facility shall be discharged no more than the Contract Capacity multiplied by 366 Days in each such Contract Year. (iii) The Facility will not be required to discharge more energy than available relative to the available State of Charge. PSS/E ASPEN PSCAD
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Battery Energy Storage System. The Facility may include an optional battery energy storage system (▇▇▇▇). The ▇▇▇▇ allows for the storing excess solar-generated electricity and supplying it back to the grid or to local loads when needed. The location of Project facilities including, but not limited to, the solar panels, electrical collection and distribution system, electrical transformers, electrical generation tie lines, roadways, and other related Project facilities, is generally described in the Revised Application, as modified within the Agreement. The final location of the solar panels and other project facilities within the Facility Area may vary from the locations shown on the conceptual drawings provided in the Revised Application, but shall be consistent with the conditions of this Agreement and in accordance with the final construction plans approved by EFSEC pursuant to Article IV S.
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Battery Energy Storage System. Moreover, despite this solution (software-side) is highly compatible with several systems, the HW used should comply with the following requirements.
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Related to Battery Energy Storage System

  • 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.

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