Synchronous Generation. The Interconnection Customer shall design its Small Generating Facility to maintain a composite power delivery at continuous rated power output at the Point of Interconnection at a power factor within the range of 0.95 leading to 0.95 lagging, unless the NYISO or the Transmission Owner in whose Transmission District the Small Generating Facility interconnects has established different requirements that apply to all similarly situated generators in the New York Control Area or Transmission District (as applicable) on a comparable basis, in accordance with Good Utility Practice.
Synchronous Generation. Developer shall design the Large Generating Facility to maintain effective composite power delivery at continuous rated power output at the Point of Interconnection at a power factor within the range of 0.95 leading to 0.95 lagging unless the NYISO or the Transmission Owner in whose Transmission District the Large Generating Facility interconnects has established different requirements that apply to all generators in the New York Control Area or Transmission District (as applicable) on a comparable basis, in accordance with Good Utility Practice. The Developer shall design and maintain the plant auxiliary systems to operate safely throughout the entire real and reactive power design range.
Synchronous Generation. Interconnection Customer shall design the Generating Facility to be capable of maintaining a composite power delivery at continuous rated power output at the Point of Interconnection at all power factors over 0.95 leading to 0.95 lagging, unless the Transmission Provider has established different requirements that apply to all synchronous generators in the Local Balancing Authority on a comparable basis. The applicable Local Balancing Authority power factor requirements are listed on the Transmission Provider’s website at xxxxx://xxx.xxxxxxxxxx.xxx/Reactive_Generator_Requirements108137.pdf and may be referenced in the Appendices to this GIA. The Generating Facility shall be capable of continuous dynamic operation throughout the power factor design range as measured at the Point of Interconnection. Such operation shall account for the net effect of all energy production devices on the Interconnection Customer’s side of the Point of Interconnection.
Synchronous Generation. Interconnection Customer shall design the Generating Facility to be capable of maintaining a composite power delivery at continuous rated power output at the Point of Interconnection at all power factors over 0.95 leading to 0.95 lagging, unless the Transmission Provider has established different requirements that apply to all synchronous generators in the Local Balancing Authority on a comparable basis. The applicable Local Balancing Authority power factor requirements are listed on the Transmission Provider’s website at xxxxx://xxx.xxxxxxxxxx.xxx/Library/Repository/Study/Generator%20Interco nnection/Reactive%20Generator%20Requirements.pdf and may be referenced in the Appendices to this GIA. The Generating Facility shall be capable of continuous dynamic operation throughout the power factor design range as measured at the Point of Interconnection. Such operation shall account for the net effect of all energy production devices on the Interconnection Customer’s side of the Point of Interconnection.
Synchronous Generation. Con Edison shall maintain effective composite power delivery of the Large Generating Facility at the Point of Interconnection within the existing reactive power capability range, in accordance with Good Utility Practice. Con Edison shall design and maintain the plant auxiliary systems to operate safely throughout the entire real and reactive power design range.
Synchronous Generation. Interconnection Customer shall design the Large Generating Facility and all generating units comprising the Large Generating Facility, as applicable, to maintain a composite power delivery at continuous rated power output at the Point of Interconnection with dynamic reactive capability over the power factor range of 0.95 leading to 0.95 lagging, unless the System Operator or Interconnecting Transmission Owner has established different requirements that apply to all synchronous (and non-wind non- synchronous generators as specified in Appendix G, Section A.ii.4 to the LGIA) generators in the Control Area on a comparable basis and in accordance with ISO New England Operating Documents, Applicable Reliability Standards, or successor documents.
Synchronous Generation. Interconnection Customer shall cause KIAC to design the Large Generating Facility to maintain effective composite power delivery at continuous rated power output at the Point of Interconnection at a power factor within the range of 0.95 leading to 0.95 lagging unless the NYISO or the Transmission Owner in whose Transmission District the Large Generating Facility interconnects has established different requirements that apply to all generators in the New York Control Area or Transmission District (as applicable) on a comparable basis, in accordance with Good Utility Practice. The Interconnection Customer shall cause KIAC to design and maintain the plant auxiliary systems to operate safely throughout the entire real and reactive power design range.
Synchronous Generation. Applicant shall design the Generating Facility to maintain a composite power delivery at continuous rated power output at the Point of Interconnection at a power factor of 0.95 or less leading, or a power factor of 0.95 or less lagging, unless the GTC has established different requirements that apply to all synchronous generators in the Control Area on a comparable basis. This power factor range shall be dynamic.
Synchronous Generation. NYPA shall design its Small Generating Facility to maintain a composite power delivery at continuous rated power output at the Point of Interconnection at a power factor within the range of 0.95 leading to 0.95 lagging, unless the NYISO or NYPA has established different requirements that apply to all similarly situated generators in the New York Control Area or Transmission District (as applicable) on a comparable basis, in accordance with Good Utility Practice.
Synchronous Generation. Units or groups of smaller units in one location with individual or total aggregate capacity greater than 1 MW must use synchronous generators, with speed-droop governors and high-speed excitation systems. Individual units should have a minimum operating capability of .90 lagging to .95 leading power factor at rated real power output. At times, SPPCo. may require direct or indirect voltage or power factor control of these units to maintain acceptable system operation. Exception: Units or groups of units connected directly to the distribution system (SPPCo.'s 25 kV or below electrical system) must be reviewed for safety, security, and transient response associated with islanding conditions. This review may dictate a requirement for induction rather than synchronous generation. SPPCo. will specify induction or synchronous generation in these cases subsequent to the interconnection/transient studies.