Meeting frequency; and. Maintenance of meeting minutes reflecting decisions made by each committee, as appropriate.
Meeting frequency; and Sample Clauses
Related to Meeting frequency; and
FREQUENCY AND CAPACITY LEVELS No restriction on frequency, capacity or aircraft type.
Under-Frequency and Over Frequency Conditions The New York State Transmission System is designed to automatically activate a load- shed program as required by the NPCC in the event of an under-frequency system disturbance. Developer shall implement under-frequency and over-frequency relay set points for the Large Generating Facility as required by the NPCC to ensure “ride through” capability of the New York State Transmission System. Large Generating Facility response to frequency deviations of predetermined magnitudes, both under-frequency and over-frequency deviations, shall be studied and coordinated with the NYISO and Connecting Transmission Owner in accordance with Good Utility Practice. The term “ride through” as used herein shall mean the ability of a Generating Facility to stay connected to and synchronized with the New York State Transmission System during system disturbances within a range of under-frequency and over-frequency conditions, in accordance with Good Utility Practice and with NPCC Regional Reliability Reference Directory # 12, or its successor.
FREQUENCY AND COVERAGE 3.1 All MI Reports must be completed by the Supplier using the MI Reporting Template and returned to the Authority on or prior to the Reporting Date every Month during the Framework Period and thereafter, until all transactions relating to Call Off Agreements have permanently ceased. 3.2 The MI Report should be used (among other things) to report Orders received and transactions occurring during the Month to which the MI Report relates, regardless of when the work was actually completed. For example, if an invoice is raised for October but the work was actually completed in September, the Supplier must report the invoice in October's MI Report and not September's. Each Order received by the Supplier must be reported only once when the Order is received. 3.3 The Supplier must return the MI Report for each Month even where there are no transactions to report in the relevant Month (a "Nil Return"). 3.4 The Supplier must inform the Authority of any errors or corrections to the Management Information: 3.4.1 in the next MI Report due immediately following discovery of the error by the Supplier; or 3.4.2 as a result of the Authority querying any data contained in an MI Report.
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.
Synchronization, Commissioning and Commercial Operation 4.1.1 The Power Producer shall give at least fifteen (15) days written notice to the SLDC / ALDC / DISCOM as the case may be, of the date on which it intends to synchronize the Power Project to the Grid System. 4.1.2 Subject to Article 4.1.1, the Power Project may be synchronized by the Power Producer to the Grid System when it meets all the connection conditions prescribed in the Grid Code and otherwise meets all other Indian legal requirements for synchronization to the Grid System. 4.1.3 The synchronization equipment and all necessary arrangements / equipment including Remote Terminal Unit (RTU) for scheduling of power generated from the Project and transmission of data to the concerned authority as per applicable regulation shall be installed by the Power Producer at its generation facility of the Power Project at its own cost. The Power Producer shall synchronize its system with the Grid System only after the approval of GETCO / SLDC / ALDC and GEDA. 4.1.4 The Power Producer shall immediately after each synchronization / tripping of generator, inform the sub-station of the Grid System to which the Power Project is electrically connected in accordance with applicable Grid Code. 4.1.5 The Power Producer shall commission the Project within SCOD. 4.1.6 The Power Producer shall be required to obtain Developer and/ or Transfer Permission, Key Plan drawing etc, if required, from GEDA. In cases of conversion of land from Agricultural to Non-Agriculture, the commissioning shall be taken up by GEDA only upon submission of N.A. permission by the Power Producer. 4.1.7 The Power Producer shall be required to follow the Forecasting and Scheduling procedures as per the Regulations issued by Hon’ble GERC from time to time. It is to clarify that in terms of GERC (Forecasting, Scheduling, Deviation Settlement and Related Matters of Solar and Wind Generation Sources) Regulations, 2019 the procedures for Forecasting, Scheduling & Deviation Settlment are applicable to all solar generators having combined installed capacity above 1 MW connected to the State Grid / Substation including those connected via pooling stations.
Payment Frequency As of the Cutoff Date and as shown on the books of CNHICA: (A) Receivables having an aggregate Statistical Contract Value of approximately 59.84% of the Aggregate Statistical Contract Value had annual scheduled payments, (B) Receivables having an aggregate Statistical Contract Value of approximately 2.65% of the Aggregate Statistical Contract Value had semi-annual scheduled payments, (C) Receivables having an aggregate Statistical Contract Value of approximately 0.73% of the Aggregate Statistical Contract Value had quarterly scheduled payments, (D) Receivables having an aggregate Statistical Contract Value of approximately 32.13% of the Aggregate Statistical Contract Value had monthly scheduled payments, and (E) the remainder of the Receivables had irregularly scheduled payments.
Power Factor Design Criteria (Reactive Power A wind generating plant shall maintain a power factor within the range of 0.95 leading to 0.95 lagging, measured at the Point of Interconnection as defined in this LGIA, if the ISO’s System Reliability Impact Study shows that such a requirement is necessary to ensure safety or reliability. The power factor range standards can be met using, for example without limitation, power electronics designed to supply this level of reactive capability (taking into account any limitations due to voltage level, real power output, etc.) or fixed and switched capacitors if agreed to by the Connecting Transmission Owner for the Transmission District to which the wind generating plant will be interconnected, or a combination of the two. The Developer shall not disable power factor equipment while the wind plant is in operation. Wind plants shall also be able to provide sufficient dynamic voltage support in lieu of the power system stabilizer and automatic voltage regulation at the generator excitation system if the System Reliability Impact Study shows this to be required for system safety or reliability.
JOC - PRICING OF After Hours Coefficient What is your after hours coefficient for the RS Means Price Book for work performed after normal working hours? (FAILURE TO RESPOND PROHIBITS PART 2 JOC EVALUATION)
PRICING OF After Hours Coefficient What is your after hours coefficient for the RS Means Price Book for work performed after normal working hours?
