Common use of Screens Clause in Contracts

Screens. 3.2.1.1 The proposed Generating Facility’s Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, a portion of GUC’s Electric Distribution System. 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUC’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) of a spot network’s maximum load or 50 kW.1 3.2.1.5 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) of the short circuit interrupting capability. 3.2.1.7 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service provided to the Interconnection Customer, including line configuration and the transformer connection to limit the potential for creating over-voltages on GUC’s System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three-phase or single-phase, phase-to-phase Pass screen Three-phase, four wire Effectively-grounded three-phase or single-phase, line-to-neutral Pass screen 3.2.1.8 If the proposed Generating Facility is to be interconnected on single-phase shared secondary, the aggregate generation capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW. 3.2.1.9 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction of facilities by GUC on its own System shall be required to accommodate the Generating Facility. 3.2.1.11 The proposed Generating Facility shall not cause voltage distortions at the Point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltage.

Appears in 3 contracts

Samples: Interconnection Procedures, Interconnection Procedures, Interconnection Procedures

AutoNDA by SimpleDocs

Screens. 3.2.1.1 The proposed Generating Facility’s Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUCthe Utility’s Electric Distribution System. 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) % of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUCa Utility’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 3.2.1.3 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s maximum load or 50 kW.1 3.2.1.5 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. kW.1 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 3.2.1.4 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than 10% to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 3.2.1.5 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 3.2.1.6 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service provided to the Interconnection Customer, including line configuration and the transformer connection to limit the potential for creating over-voltages on GUCthe Utility’s System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three-phase or single-phase, phase-to-phase Pass screen Three-phase, four wire Effectively-grounded three-phase or single-phase, line-to-neutral Pass screen 3.2.1.8 3.2.1.7 If the proposed Generating Facility is to be interconnected on single-phase shared secondary, the aggregate generation capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW. 3.2.1.9 3.2.1.8 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.9 The Generating Facility, in aggregate with other generation interconnected to the transmission side of a substation transformer feeding the circuit where the Generating Facility proposes to interconnect shall not exceed 10 MW in an area where there are known, or posted, transient stability limitations to generating units located in the general electrical vicinity (e.g., three or four transmission busses from the point of interconnection). 3.2.1.10 No construction of facilities by GUC the Utility on its own System shall be required to accommodate the Generating Facility. 3.2.1.11 The proposed Generating Facility shall not cause voltage distortions at the Point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltage.

Appears in 3 contracts

Samples: Interconnection Procedures, Interconnection Procedures, Interconnection Procedures

Screens. 3.2.1.1 The proposed Generating Facility’s 's Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUC’s Electric the Utility's Distribution System. 3.2.1.2 Interconnection For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility Facility, on the circuit shall not exceed 15% of the line section annual peak load as most recently measured at the substation. A line section is in compliance with that portion of a Utility’s System connected to a customer bounded by automatic sectionalizing devices or the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systemsend of the distribution line. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) 90% of the line section annual peak circuit and/or bank minimum load as most recently measured at the substation. A line section is that portion of GUC’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s 's maximum load or 50 kW.1kW. 3.2.1.5 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) % to the distribution circuit’s 's maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed approved for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service to be provided to the Interconnection Customer, including line configuration and the transformer connection to limit for the purpose of limiting the potential for creating over-voltages on GUC’s the Utility's System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three3-phase or single-single phase, phase-to-to- phase Pass screen Screen Three-phase, four wire Effectively-grounded three-three- phase or single-single phase, line-to-neutral Pass screenScreen 3.2.1.8 If the proposed Generating Facility is to be interconnected on a single-phase shared secondary, the aggregate generation Generating Facility capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW.65% of the transformer nameplate rating. 3.2.1.9 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction The Generating Facility, in aggregate with other generation interconnected to the transmission side of facilities by GUC on its own System shall be required to accommodate a substation transformer feeding the circuit where the Generating Facility. 3.2.1.11 The proposed Generating Facility proposes to interconnect shall not cause voltage distortions at exceed 10 MW in an area where there are known, or posted, transient stability limitations to generating units located in the Point general electrical vicinity (e.g., three or four transmission busses from the point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltageinterconnection).

Appears in 2 contracts

Samples: Interconnection Procedures, Interconnection Procedures

Screens. 3.2.1.1 The proposed Generating Facility’s Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, a portion of GUCthe Utility’s Electric Distribution System. 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) 1 Policy Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) % of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUCa Utility’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s maximum load or 50 kW.1 3.2.1.5 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) % to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service provided to the Interconnection Customer, including line configuration and the transformer connection to limit the potential for creating over-voltages on GUCthe Utility’s System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three-phase or single-phase, phase-to-phase Pass screen Three-phase, four wire Effectively-grounded three-phase or single-phase, line-to-neutral Pass screen 3.2.1.8 If the proposed Generating Facility is to be interconnected on single-phase shared secondary, the aggregate generation capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW. 3.2.1.9 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction of facilities by GUC the Utility on its own System shall be required to accommodate the Generating Facility. 3.2.1.11 The proposed Generating Facility shall not cause voltage distortions at the Point of Interconnection to Utility-owned facilities to exceed three percent (3%) % of nominal 60 hertz voltage.

Appears in 2 contracts

Samples: Interconnection Procedures, Interconnection Procedures

Screens. 3.2.1.1 The proposed Generating Facility’s 's Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUC’s Electric the Utility's Distribution System. 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) % of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUCa Utility’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 3.2.1.3 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s 's maximum load or 50 kW.1 3.2.1.5 3.2.1.4 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) % to the distribution circuit’s 's maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 3.2.1.5 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 3.2.1.6 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service to be provided to the Interconnection Customer, including line configuration and the transformer connection to limit for the purpose of limiting the potential for creating over-voltages on GUC’s the Utility's System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three3-phase or single-single phase, phase-to-phase Pass screen Screen 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) Three-phase, four wire Effectively-grounded three-three- phase or single-single phase, line-line- to-neutral Pass screenScreen 3.2.1.8 3.2.1.7 If the proposed Generating Facility is to be interconnected on a single-phase shared secondary, the aggregate generation Generating Facility capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW.65% of the transformer nameplate rating. 3.2.1.9 3.2.1.8 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction 3.2.1.9 The Generating Facility, in aggregate with other generation interconnected to the transmission side of facilities by GUC on its own System shall be required to accommodate a substation transformer feeding the circuit where the Generating Facility. 3.2.1.11 The proposed Generating Facility proposes to interconnect shall not cause voltage distortions at exceed 10 MW in an area where there are known, or posted, transient stability limitations to generating units located in the Point general electrical vicinity (e.g., three or four transmission busses from the point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltageinterconnection).

Appears in 2 contracts

Samples: Generator Interconnection Procedures, Generator Interconnection Agreement

AutoNDA by SimpleDocs

Screens. 3.2.1.1 The proposed Generating Facility’s 's Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUC’s Electric the Utility's Distribution System. 3.2.1.2 Interconnection For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility Facility, on the circuit shall not exceed 15% of the line section annual peak load as most recently measured at the substation. A line section is in compliance with that portion of a Utility’s System connected to a customer bounded by automatic sectionalizing devices or the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systemsend of the distribution line. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) 90% of the line section annual peak circuit and/or bank minimum load as most recently measured at the substation. A line section is that portion of GUC’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s 's maximum load or 50 kW.1kW. 3.2.1.5 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) % to the distribution circuit’s 's maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed approved for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service to be provided to the Interconnection Customer, including line configuration and the transformer connection to limit for the purpose of limiting the potential for creating over-voltages on GUC’s the Utility's System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three3-phase or single-single phase, phase-phase- to-phase Pass screen Screen Three-phase, four wire Effectively-grounded three-three- phase or single-single phase, line-to-to- neutral Pass screenScreen 3.2.1.8 If the proposed Generating Facility is to be interconnected on a single-phase shared secondary, the aggregate generation Generating Facility capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW.65% of the transformer nameplate rating. 3.2.1.9 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction The Generating Facility, in aggregate with other generation interconnected to the transmission side of facilities by GUC on its own System shall be required to accommodate a substation transformer feeding the circuit where the Generating Facility. 3.2.1.11 The proposed Generating Facility proposes to interconnect shall not cause voltage distortions at exceed 10 MW in an area where there are known, or posted, transient stability limitations to generating units located in the Point general electrical vicinity (e.g., three or four transmission busses from the point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltageinterconnection).

Appears in 2 contracts

Samples: Interconnection Procedures, Interconnection Procedures

Screens. 3.2.1.1 The proposed Generating Facility’s Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUCthe City’s Electric Distribution System. 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) % of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUCa City’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 3.2.1.3 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s maximum load or 50 kW.1 3.2.1.5 3.2.1.4 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.)) more than 10% to the distribution circuit’s maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 3.2.1.6 3.2.1.5 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 3.2.1.6 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service provided to the Interconnection Customer, including line configuration and the transformer connection to limit the potential for creating over-voltages on GUCthe City’s System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three-phase or single-phase, phase-to-phase Pass screen Three-phase, four wire Effectively-grounded three-phase or single-phase, line-to-neutral Pass screen 3.2.1.8 3.2.1.7 If the proposed Generating Facility is to be interconnected on single-phase shared secondary, the aggregate generation capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW. 3.2.1.9 3.2.1.8 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction of facilities by GUC on its own System shall be required to accommodate the Generating Facility. 3.2.1.11 3.2.1.9 The proposed Generating Facility shall not cause voltage distortions at the Point of Interconnection to Utilitythe City-owned Owned facilities to exceed three percent (3%) % of nominal 60 hertz Hertz voltage. 3.2.1.10 No construction of facilities by the City on its own System shall be required to accommodate the Generating Facility.

Appears in 1 contract

Samples: Interconnection Procedures

Screens. 3.2.1.1 The proposed Generating Facility’s 's Point of Interconnection must be on, connected through the Interconnection Customer’s premises wiring and electric facilities to, on a portion of GUC’s Electric the Utility's Distribution System.. ELECTRONICALLY FILED - 2019 April 22 5:05 PM - SCPSC - Docket # 2019-130-E - Page 17 of 115 3.2.1.2 Interconnection of the proposed Generating Facility is in compliance with the North Carolina Eastern Municipal Power Agency (NECMPA) Regarding Generation on Participant Distribution Systems. 3.2.1.3 For interconnection of a proposed Generating Facility to a radial distribution circuit, the aggregated generation, including the proposed Generating Facility, on the circuit shall not exceed fifteen percent (15%) % of the line section annual peak load as most recently measured at the substation. A line section is that portion of GUCa Utility’s System connected to a customer bounded by automatic sectionalizing devices or the end of the distribution line. 3.2.1.4 3.2.1.3 For interconnection of a proposed Generating Facility to the load side of spot network protectors, the proposed Generating Facility must utilize an inverter-based equipment package and, together with the aggregated other inverter-based generation, shall not exceed the smaller of five percent (5%) % of a spot network’s 's maximum load or 50 kW.1 3.2.1.5 3.2.1.4 The proposed Generating Facility, in aggregation with other generation on the distribution circuit, shall not contribute more than ten percent (10%) % to the distribution circuit’s 's maximum fault current at the point on the high voltage (primary) level nearest the proposed point of change of ownership. 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) 3.2.1.6 3.2.1.5 The proposed Generating Facility, in aggregate with other generation on the distribution circuit, shall not cause any distribution protective devices and equipment (including, but not limited to, substation breakers, fuse cutouts, and line reclosers), or Interconnection Customer equipment on the system to exceed eighty seven and one half percent (87.5%) % of the short circuit interrupting capability; nor shall the interconnection be proposed for a circuit that already exceeds eighty seven and one half percent (87.5%) % of the short circuit interrupting capability. 3.2.1.7 3.2.1.6 Using the table below, determine the type of interconnection to a primary distribution line. This screen includes a review of the type of electrical service to be provided to the Interconnection Customer, including line configuration and the transformer connection to limit for the purpose of limiting the potential for creating over-voltages on GUC’s the Utility's System due to a loss of ground during the operating time of any anti-islanding function. Three-phase, three wire Three3-phase or single-single phase, phase-to-phase Pass screen Screen 1 A spot network is a type of distribution system found within modern commercial buildings to provide high reliability of service to a single customer. (Standard Handbook for Electrical Engineers, 11th edition, Xxxxxx Xxxx, XxXxxx Xxxx Book Company.) Three-phase, four wire Effectively-grounded three-three- phase or single-single phase, line-line- to-neutral Pass screenScreen ELECTRONICALLY FILED - 2019 April 22 5:05 PM - SCPSC - Docket # 2019-130-E - Page 18 of 115 3.2.1.8 3.2.1.7 If the proposed Generating Facility is to be interconnected on a single-phase shared secondary, the aggregate generation Generating Facility capacity on the shared secondary, including the proposed Generating Facility, shall not exceed 20 kW.65% of the transformer nameplate rating. 3.2.1.9 3.2.1.8 If the proposed Generating Facility is single-phase and is to be interconnected on a center tap neutral of a 240 volt service, its addition shall not create an imbalance between the two sides of the 240 volt service of more than 20% of the KVA nameplate rating of the service transformer. 3.2.1.10 No construction 3.2.1.9 The Generating Facility, in aggregate with other generation interconnected to the transmission side of facilities by GUC on its own System shall be required to accommodate a substation transformer feeding the circuit where the Generating Facility. 3.2.1.11 The proposed Generating Facility proposes to interconnect shall not cause voltage distortions at exceed 10 MW in an area where there are known, or posted, transient stability limitations to generating units located in the Point general electrical vicinity (e.g., three or four transmission busses from the point of Interconnection to Utility-owned facilities to exceed three percent (3%) of nominal 60 hertz voltageinterconnection).

Appears in 1 contract

Samples: Generator Interconnection Procedures

Draft better contracts in just 5 minutes Get the weekly Law Insider newsletter packed with expert videos, webinars, ebooks, and more!