Small Generating Facility’s Primary Frequency Response Operating Range Sample Clauses

Small Generating Facility’s Primary Frequency Response Operating Range. Pursuant to Article 1.8.3.4 of this Agreement, Interconnection Customer must provide primary frequency response consistent with Articles 1.8.3, 1.8.3.1, 1.8.3.2, and 1.8.3.3 when its operating range is between 15 percent minimum state of charge and 85 percent maximum state of charge. The additional relevant factors concerning the Small Generating Facility’s provision of primary frequency response are as follows:
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Small Generating Facility’s Primary Frequency Response Operating Range. Pursuant to Article 1.8.3.4 of this Agreement, NYPA must provide primary frequency response consistent with Articles 1.8.3, 1.8.3.1, 1.8.3.2, and 1.8.3.3 of this Agreement when its operating range is between: Minimum State of Charge: 10%; and Maximum State of Charge: 90%. The operating range shall be static. SERVICE AGREEMENT NO. 2648 Attachment 6 NYPA’s Description of its Upgrades and Best Estimate of Upgrade Costs The NYISO, in consultation with NYPA, shall describe Upgrades and provide an itemized best estimate of the cost, including overheads, of the Upgrades and annual operation and maintenance expenses associated with such Upgrades. NYPA shall functionalize Upgrade costs and annual expenses as either transmission or distribution related.
Small Generating Facility’s Primary Frequency Response Operating Range. Pursuant to Article 1.8.3.4 of this Agreement, Interconnection Customer must provide primary frequency response consistent with Articles 1.8.3, 1.8.3.1, 1.8.3.2, and 1.8.3.3 of this Agreement when its operating range is between: Minimum State of Charge: 10%; and Maximum State of Charge: 90%. The operating range shall be static. Attachment 6 Connecting Transmission Owner’s Description of its Upgrades and Best Estimate of Upgrade Costs The NYISO, in consultation with the Connecting Transmission Owner, shall describe Upgrades and provide an itemized best estimate of the cost, including overheads, of the Upgrades and annual operation and maintenance expenses associated with such Upgrades. The Connecting Transmission Owner shall functionalize Upgrade costs and annual expenses as either transmission or distribution related.
Small Generating Facility’s Primary Frequency Response Operating Range. Pursuant to Article 1.8.3.4 of this Agreement, the Interconnection Customer must provide primary frequency response consistent with Articles 1.8.3, 1.8.3.1, 1.8.3.2, and 1.8.3.3 of this Agreement when its operating range is between: Minimum State of Charge: 0% Maximum State of Charge: 100% The operating range shall be static. The voltage and frequency setting are specified below: Shall trip function Voltage (p.u. of nominal voltage) Clearing time (seconds) UV2 0.5 1.1 UV1 0.8 3 OV2 1.2 0.16 OV1 1.1 2 Shall trip function Frequency (Hz) Clearing time (Seconds) UF2 56.5 0.16 UF1 58.5 300 OF2 62 0.16 OF1 61.2 300 2. Battery Energy Storage System (XXXX) Charging and Discharging Restriction The load profile for the Fresh Kills network is shown below in Figure 1. The XXXX charging and discharge times that were identified for the Small Generating Facility are depicted in Figure 2. Charging can typically occur between 01:00 to 07:00 AM, and discharging can typically occur between 11:00 AM – 23:00 PM. These times are subject to change as loading on the system changes. Adjustment of the charging and discharging times may become necessary for the Small Generating Facility in the future, and the Interconnecting Customer shall follow the most up to date Fresh Kills Load Profile. Links to Hosting Capacity and Hourly Integrated Load Curves are available on the Connecting Transmission Owner’s Hosting Capacity Website (xxxxx://xxx.xxxxx.xxx/en/business-partners/hosting-capacity). FIGURE 1 REMOVED FROM PUBLIC VERSION – CONTAINS CONFIDENTIAL INFORMATION AS IDENTIFIED BY THE CONNECTING TRANSMISSION OWNER Figure 2 Battery Charge and Discharge Curve (Fresh Kills)

Related to Small Generating Facility’s Primary Frequency Response Operating Range

  • Reactive Power and Primary Frequency Response 9.6.1 Power Factor Design Criteria

  • Primary Frequency Response Developer shall ensure the primary frequency response capability of its Large Generating Facility by installing, maintaining, and operating a functioning governor or equivalent controls. The term “functioning governor or equivalent controls” as used herein shall mean the required hardware and/or software that provides frequency responsive real power control with the ability to sense changes in system frequency and autonomously adjust the Large Generating Facility’s real power output in accordance with the droop and deadband parameters and in the direction needed to correct frequency deviations. Developer is required to install a governor or equivalent controls with the capability of operating: (1) with a maximum 5 percent droop ± 0.036 Hz deadband; or (2) in accordance with the relevant droop, deadband, and timely and sustained response settings from an approved Applicable Reliability Standard providing for equivalent or more stringent parameters. The droop characteristic shall be: (1) based on the nameplate capacity of the Large Generating Facility, and shall be linear in the range of frequencies between 59 and 61 Hz that are outside of the deadband parameter; or (2) based on an approved Applicable Reliability Standard providing for an equivalent or more stringent parameter. The deadband parameter shall be: the range of frequencies above and below nominal (60 Hz) in which the governor or equivalent controls is not expected to adjust the Large Generating Facility’s real power output in response to frequency deviations. The deadband shall be implemented: (1) without a step to the droop curve, that is, once the frequency deviation exceeds the deadband parameter, the expected change in the Large Generating Facility’s real power output in response to frequency deviations shall start from zero and then increase (for under-frequency deviations) or decrease (for over-frequency deviations) linearly in proportion to the magnitude of the frequency deviation; or (2) in accordance with an approved Applicable Reliability Standard providing for an equivalent or more stringent parameter. Developer shall notify NYISO that the primary frequency response capability of the Large Generating Facility has been tested and confirmed during commissioning. Once Developer has synchronized the Large Generating Facility with the New York State Transmission System, Developer shall operate the Large Generating Facility consistent with the provisions specified in Articles 9.5.5.1 and 9.5.5.2 of this Agreement. The primary frequency response requirements contained herein shall apply to both synchronous and non-synchronous Large Generating Facilities.

  • Statewide HUB Program Statewide Procurement Division Note: In order for State agencies and institutions of higher education (universities) to be credited for utilizing this business as a HUB, they must award payment under the Certificate/VID Number identified above. Agencies, universities and prime contractors are encouraged to verify the company’s HUB certification prior to issuing a notice of award by accessing the Internet (xxxxx://xxxxx.xxx.xxxxx.xx.xx/tpasscmblsearch/index.jsp) or by contacting the HUB Program at 000-000-0000 or toll-free in Texas at 0-000-000-0000.

  • Provisioning of High Frequency Spectrum and Splitter Space 3.2.1 BellSouth will provide <<customer_name>> with access to the High Frequency Spectrum as follows:

  • Cost Responsibility for Interconnection Facilities and Distribution Upgrades 4.1 Interconnection Facilities 4.2 Distribution Upgrades

  • AIN Selective Carrier Routing for Operator Services, Directory Assistance and Repair Centers 4.3.1 BellSouth will provide AIN Selective Carrier Routing at the request of <<customer_name>>. AIN Selective Carrier Routing will provide <<customer_name>> with the capability of routing operator calls, 0+ and 0- and 0+ NPA (LNPA) 555-1212 directory assistance, 1+411 directory assistance and 611 repair center calls to pre-selected destinations.

  • SS7 Network Interconnection 9.7.1 SS7 Network Interconnection is the interconnection of Global Connection local signaling transfer point switches or Global Connection local or tandem switching systems with BellSouth signaling transfer point switches. This interconnection provides connectivity that enables the exchange of SS7 messages among BellSouth switching systems and databases, Global Connection local or tandem switching systems, and other third-party switching systems directly connected to the XxxxXxxxx XX0 network.

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