Reactive Power Capability. This table should be completed to reflect the combination of the DER Unit’s capability and any limitation in the DER Unit’s Connection Agreement with UKPN. Consistent with clause 10, if there is any change in the DER Unit’s capability, an update of this schedule may be required. Active Power Output P (MW) Lead Reactive Power capability Qmin (Mvar) Lag Reactive Power capability Qmax (Mvar) Above capability plotted as a P/Q chart if available (Performance Chart) Figure 1: Illustration of P/Q chart Please refer to the examples in the Market Procedures when providing performance charts. PQ capability charts have to be defined at the point of connection (POC) for non-synchronous DER and at the generator terminals for synchronous DER.
Reactive Power Capability. (a) To facilitate the transmission of real power and maintain acceptable network voltage levels, you must make available to Ausgrid a reactive power capability which is no less than that specified in Item 3 of Schedule 5 to this agreement, or that required by section 5.2 of the NER; whichever is the greater.
Reactive Power Capability. The Generator must make available to Ausgrid a reactive power capability which is no less than as follows: [insert details]
Reactive Power Capability. The Facility shall be designed to supply power (MWAC) for power factors ranging between 0.9 lagging and 0.9 leading, measured at the Point of Delivery. The resulting Reactive Power requirement shall be available from 20% of the Maximum Capacity of the Facility at the Point of Delivery.
Reactive Power Capability. AND MINIMUM POWER FACTOR REQUIREMENTS The total power factor range shall be from 0.85 lagging to 0.85 leading at the point of interconnection (POI). The reactive power requirements provide flexibility for many types of technologies at the Renewable Energy Facility. The intent is that a PVF can ramp the reactive power from 0.85 lagging to 0.85 leading in a smooth continuous fashion at the POI. The +/- 0.90 power factor range should be dynamic and continuous at the point of interconnection (POI). This means that the PVF has to be able to respond to power system voltage fluctuations by continuously varying the reactive output of the plant within the specified limits. The previously established power factor dynamic range could be expanded if studies indicate that additional continuous, dynamic compensation is required. It is required that the PVF reactive capability meets +/- 0.85 Power Factor (PF) range based on the PVF Aggregated MW Output, which is the maximum MVAr capability corresponding to maximum MW Output. It is understood that positive (+) PF is where the PVF is producing MVAr and negative (-) PF is where the PVF is absorbing MVAr. Puerto Rico Electric Power Authority Minimum Technical Requirements for Photovoltaic Generation (PV) Projects 3 This requirement of MVAr capability at maximum output shall be sustained throughout the complete range of operation of the PVF as established by Figure 2. Capability Reactive Capability -0.85 pf ! -0.90 pf +0.90 pf ! +0.85 pf 1.0 -0, 5 j 1 1.0 0.62 0.5 0.484 0.484 0.5 0.62 Producing MVAR (per unit) Figure 2 Reactive Power Capability Curve
Reactive Power Capability. The requirements of this Article apply to the steady state condition of the power system only, and do not apply to transient stability. The inner profile of Figure 9 of the RfG is further specified by the red dashed line in Figure d below, while respecting the figures of Table 11. The coordinates of the vertices of the red dashed profile of Figure d are: Signed for approval: XxxxxX XXX X.X.XXXX November 4, 2015 PAGE 20 of 41 Figure d: The required P-Q/Pmax-profile of a power park modulean Offshore PPM at the cConnection pPoint by the active power The coordinates of the vertices of the red dashed profile of Figure d are: Reactive power Q/Pmax [pu] Power P [pu] -0,40 0,10 -0,10 0,10 -0,10 0,00 XxxxxX XXX B.V. DATE October 8, 2015 PAGE 19 of 28 0,10 0,00 0,10 0,10 0,35 0,20 0,35 1,00 In case a Power Park ModuleOffshore PPM has a reactive power capability beyond the voltage range specified the capability shall not be deliberately limited. Limitation of reactive power capability based on the number of generating units in service may not influence the behaviour of the reactive power controller within these limited capabilities. During operation the PPM shall absorb or inject reactive power on demand of TenneT between -0,1 pu and +0,1 pu (1 pu is full active power in MW independent of the numbers of WTGs in operation) at PCC, as agreed in the CTA. If the reactive power capabilities of a specific WTG cannot comply at very low active power (below 0.1 pu), then TenneT will adjust their component set-up (reactors, capacitors) accordingly. The full reactive power capabilities of the PPM to absorb or inject reactive power on demand of TenneT are between -0,4 pu (absorption) and +0,35 pu (injection) at PCC (1 pu is full active power in MW dependent of the numbers of WTGs in operation). In addition to Article 25 and 21 of the RfG, Article 5.2.2.1 of the Dutch grid code (Netcode Elektriciteit) is also applicable:
Reactive Power Capability. AT HV SIDE OF STEP-UP TRANSFORMER (at rated terminal and nominal system voltage) SUMMARY TABLE C RATED MW LEAD (Mvar) LAG (Mvar) CCGT UNIT Part II Meters and Aggregation Principles [BM Unit No.] [BM] or [CCGT] Unit No Meter Identification No. Meter Location Code Loss Adjustment Factor Aggregation Methodology [N/A] or [Category A/B/C* aggregation principles as set out in the latest published version of the document entitled “Methodology Document for the Aggregation of Reactive Power Metering” shall apply] * Delete as applicable Part III
Reactive Power Capability. 1.1 In respect of each Despatch Unit, a Tenderer must nominate a Genset Registered Capacity which it anticipates will be the actual Genset Registered Capacity on the Contract Start Day for that Despatch Unit (in this Appendix 5 referred to as "the Nominated Genset Registered Capacity") to be used for the duration of the Market Agreement. All capability data used for the purpose of a Tender must be expressed as the capability of a Despatch Unit at the Commercial Boundary and must represent the value of Reactive Power output which can be supplied continuously at the Commercial Boundary when the Despatch Unit is operating at the Nominated Genset Registered Capacity.
Reactive Power Capability. This table should be completed to reflect the combination of the DER Unit’s capability and any limitation in the DER Unit’s Connection Agreement with UKPN. Consistent with clause 10, if there is any change in the DER Unit’s capability, an update of this schedule may be required.
Reactive Power Capability. AT HV SIDE OF STEP-UP TRANSFORMER (at rated terminal and nominal system voltage) SUMMARY TABLE C RATED MW LEAD (Mvar) LAG (Mvar) CCGT UNIT ] OR [TABLES BELOW FOR USE WHERE GRID CODE CC6.3.2(c) or (d)(i) APPLICABLE] REACTIVE POWER CAPABILITY AT COMMERCIAL BOUNDARY (at rated stator terminal and nominal system voltage) BM Unit No. TABLE A MW LEAD (Mvar) LAG (Mvar) AT RATED MW REACTIVE POWER CAPABILITY AT GRID ENTRY POINT (ENGLAND AND WALES) OR HV SIDE OF RELEVANT TRANSFORMER (SCOTLAND) OR USER SYSTEM ENTRY POINT (IF EMBEDDED) BM Unit No. TABLE B MW LEAD (Mvar) LAG (Mvar) AT RATED MW AT 50% OF RATED MW AT 20% OF RATED MW AT BELOW 20% OF RATED MW AT 0% OF RATED MW OR [TABLES BELOW FOR USE WHERE GRID CODE CC6.3.2(d)(ii) APPLICABLE (INCLUDING FOR POWER PARK UNITS)] REACTIVE POWER CAPABILITY AT COMMERCIAL BOUNDARY (at rated stator terminal and nominal system voltage) TABLE A MW LEAD (Mvar) LAG (Mvar) AT RATED MW REACTIVE POWER CAPABILITY AT NON-SYNCHRONOUS GENERATING UNIT STATOR TERMINAL (at rated terminal voltage) Non Synchronous Generating Unit (including Power Park Unit): Each TABLE B MW LEAD (Mvar) LAG (Mvar)
