Energy Resource Interconnection Service means an Interconnection Service that allows the Interconnection Customer to connect its Generating Facility to the Transmission Provider’s Transmission System to be eligible to deliver the Generating Facility's electric output using the existing firm or non-firm capacity of the Transmission Provider’s Transmission System on an as available basis. ERIS in and of itself does not convey transmission service
Energy Resource Interconnection Service or “ERIS” means the service provided by NYISO to interconnect the Project to the New York Transmission System in connection with the NYISO requirements to enable the New York Transmission System to receive Energy and Ancillary Services from the Project.
Energy Resource Interconnection Service means the type of interconnection service which allows Seller to connect the Facility to the transmission or distribution system, as applicable, as an “Energy Resource” as defined by the Transmission Tariff, and be eligible to deliver the Facility’s output using the existing firm or non-firm capacity on the transmission system on an as-available basis.
Examples of Energy Resource Interconnection Service in a sentence
The ISO offers Energy Resource Interconnection Service under the Large Facility Interconnection Procedures for interconnection in compliance with the NYISO Minimum Interconnection Standard.
Termination or Default of this Agreement for any reason by the Developer shall not constitute a waiver of the Developer’s legal rights to obtain Capacity Resource Interconnection Service and Energy Resource Interconnection Service from the NYISO and Connecting Transmission Owner in accordance with the provisions of the NYISO OATT.
Energy Resource Interconnection Service - The service provided by NYISO to interconnect the Interconnection Customer’s Small Generating Facility to the New York State Transmission System or Distribution System in accordance with the NYISO Minimum Interconnection Standard, to enable the New York State Transmission System to receive Energy and Ancillary Services from the Small Generating Facility, pursuant to the terms of the ISO OATT.
The Optional Interconnection System Reliability Impact Study will also identify the Connecting Transmission Owner’s Attachment Facilities and the System Upgrade Facilities, and the estimated cost thereof, that may be required to provide Energy Resource Interconnection Service based upon the results of the Optional Interconnection System Reliability Impact Study.
Termination or Default of this Agreement for any reason by the Developer shall not constitute a waiver of the Developer’s legal rights to obtain Capacity Resource Interconnection Service and Energy Resource Interconnection Service from the NYISO and Connecting Transmission Owner in accordance with the provisions of the ISO OATT.
More Definitions of Energy Resource Interconnection Service
Energy Resource Interconnection Service means the type of interconnection service which allows Seller to connect the Facility to the transmission or distribution system, as applicable, as an “Energy Resource” as defined by the Transmission Tariff, and be eligible to deliver the Facility’s output using the existing firm or non-firm capacity on the transmission system on an as-available basis. if needed
Energy Resource Interconnection Service means the service provided by NYISO to interconnect generation owners’ generating facilities to the Transmission System in accordance with the NYISO Minimum Interconnection Standard, to enable the Transmission System to receive energy and Ancillary Services from the generating facilities, pursuant to the terms of the OATT.
Energy Resource Interconnection Service has the meaning given to such term in the MISO FERC Electric Tariff.
Energy Resource Interconnection Service means an Interconnection Service that allows the Interconnection Customer to connect its Generating Facility to the Transmission Provider’s Transmission System to be eligible to deliver the Generating Facility's electric output using the existing firm or non-firm capacity of the Transmission Provider’s Transmission System on an as available basis. Energy Resource Interconnection Service in and of itself does not convey transmission service Interconnection Facilities and Station Network Upgrades. The study also identifies the estimated Security3 and Contingent Facilities associated with the Provisional Service.The steady state analysis identifies thermal and voltage violations in the PSCo system and the neighboring systems using the study criteria in Section 3.1.1 and study methodology in Section3.2.1. The transient stability analysis verifies that all generating units within the PSCo transmission system and the neighboring systems remain stable (in synchronism), have positive damping (angle and voltage) and satisfy acceptable dynamic performance criteria. The study criteria and study methodology for transient stability analysis are given in Section 3.1.2 and Section 3.2.2 respectively. The short circuit analysis determines the maximum available fault current at the POI and identifies if any circuit breaker(s) within the PSCo station(s) exceed their breaker duty ratings. The study criteria and study methodology for short circuit analysis are given in Section 3.1.3 and Section 3.2.3 respectively. 3.1 Study CriteriaPSCo adheres to applicable NERC Reliability Standards and WECC Reliability Criteria, as well as its internal transmission planning criteria for studies. The following Criteria is used for the reliability analysis of the PSCo system and Neighboring Utility systems.3.1.1 Steady-State CriteriaThe steady state analysis criteria are as follows: P0 - System Intact conditions:Thermal Loading: <=100% of the normal facility rating Voltage range: 0.95 to 1.05 per unitP1 & P2-1 – Single Contingencies:Thermal Loading: <=100% Normal facility rating Voltage range: 0.90 to 1.10 per unitVoltage deviation: <=8% of pre-contingency voltage P2 (except P2-1), P4, P5 & P7 – Multiple Contingencies: Thermal Loading: <=100% Emergency facility rating Voltage range: 0.90 to 1.10 per unit
Energy Resource Interconnection Service means an Interconnection Service that allows the Interconnection Customer to connect its Generating Facility to the Transmission Provider’s Transmission System to be eligible to The estimated costs of the recommended transmission system upgrades to interconnect the GI- 2015-1 project include:• $1.632 million for Transmission Provider’s Interconnection Facilities (cf. Table 1).• $15.268 million for Network Upgrades required for either ERIS or NRIS (cf. Table 2).• $0.649 million for additional Network Upgrades required for NRIS (cf. Table 3). The total estimated cost of the transmission system improvements required for GI-2015-1 to qualify for: ERIS is $16.9 Million (Tables 1 and 2); and NRIS is $17.549 Million (Tables 1, 2 and 3)This is contingent upon completion of the Network Upgrades identified for all applicable prior-queued Interconnection Requests (see footnote to Table 3). For GI-2015-1 interconnection:NRIS (after required transmission system improvements) = 250 MWERIS (after required transmission system improvements) = 250 MW (output delivery assumes the use of existing firm or non-firm capacity of the PSCo Transmission System on an as-available basis.)Note: NRIS or ERIS, in and of itself, does not convey transmission service. deliver the Generating Facility's electric output using the existing firm or non-firm capacity of the Transmission Provider’s Transmission System on an as available basis. ERIS in and of itself does not convey transmission service
Energy Resource Interconnection Service means an Interconnection Service that allows the Generator to connect its Facility to the System to be eligible to deliver the Facility’s electric output using the existing firm or non-firm capacity of the Transmission System on an as available basis.
Energy Resource Interconnection Service means an Interconnection Service that allows the Interconnection Customer to connect its Generating Facility to the Transmission Provider’s Transmission System to be eligible to deliver the Generating Facility's electric output using the existing firm or non-firm capacity of the Transmission Provider’s Transmission System on an as available basis. Energy Resource Interconnection Service in and of itself does not convey transmission service Energy Resource The results of the load flow studies for the 2011 HS case show that the Malta 230/115 kV T1 transformer is slightly overloaded in the case with the proposed generation, versus the benchmark case. This is for the contingency outage of the Dillon 230/115 kV T2 transformer. However, the overload is less than the emergency rating of the Malta transformer. Therefore, this should not present a limit to the proposed generation. The results of the load flow studies for the 2016 HS case indicate that no facilities will be overloaded due to the proposed generation when it is operating at the full requested 34 MW level. Also, there was no adverse impact on IREA’s new Hartsel-Conifer 115 kV circuit. Based on these results, the Energy Resource analysis indicates that the customer can deliver 34 MW on a firm basis with no overload concerns due to the proposed facility Non-firm transmission capability should also be available depending upon generation dispatch levels, demand levels, import path levels (TOT 3, etc.), and the operational status of transmission facilities. Voltage at the Point of Interconnection The load flow studies showed that setting the PV inverters to unity power resulted in unity power factor at the POI. To maintain an acceptable voltage profile at the POI, the PV inverters should be set to maintain unity power factor at the POI. Cost Estimates The cost for the transmission interconnection (in 2010 dollars): Transmission ProposalThe total estimated cost of the recommended system improvements to interconnect the project is approximately $918,000 and includes: • $ 0.418 million for PSCo-Owned, Customer-Funded Interconnection Facilities• $ 0.500 million for PSCo-Owned, PSCo-Funded Network Upgrades for Interconnection• $ 0.000 million for PSCo-Owned, PSCo-Funded Network Upgrades for Delivery to PSCo Loads The estimated time to complete this work following receipt of authorization to proceed is18 months. Therefore, this work cannot be completed by the requested in service date. The Interconnection Agreeme...