Exchange of reserve capacity. The exchange of reserve capacity allows TSOs to organise and to ensure the availability of reserve capacity resulting from FCR dimensioning (see chapter 6) and FRR dimensioning (see chapter 7), by relying on reserve providing units and reserve providing groups which are connected to an area operated by a different TSO. Figure 1 illustrates the exchange of 200 MW of reserve capacity (FCR, FRR or RR) from Area B to Area A. Figure 1: Exchange of reserve capacity – simple example Suppose that the dimensioning results in the need of 300 MW for Area A and 200 MW for Area B. Without the exchange of reserve capacity the respective reserve capacity has to be provided by reserve providing units or reserve providing groups connected to the Area which means that 300 MW have to be connected in Area A and 200 MW in Area B. As a result of the exchange of reserve capacity of 200 MW from Area B to Area A, 200 MW of reserve capacity needed for Area A are now located within Area B, whereas Area A still ensures in addition the availability of the full amount of its own reserve capacity. Although the geographical location of the reserve capacity is different from the dimensioning results for each area, the total amount of reserve capacity within Area A and B is still 500 MW which is equivalent to the total amount without the exchange. Table 5 shows references to the limits for exchange of FCR and FRR. Table 5: Exchange limits FCR FRR RR 4.1 No limits defined RR currently not applied in Nordic SA Between Synchronous areas See section 9.4.1 See section 9.4.3 RR currently not applied in Nordic SA
Appears in 3 contracts
Samples: Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr), Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr), Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr)
Exchange of reserve capacity. The exchange of reserve capacity allows TSOs to organise and to ensure the availability of reserve capacity resulting from FCR dimensioning (see chapter 6) and FRR dimensioning (see chapter 7), by relying on reserve providing units and reserve providing groups which are connected to an area operated by a different TSO. Figure 1 illustrates the exchange of 200 MW of reserve capacity (FCR, FRR or RR) from Area B to Area A. Figure 1: Exchange of reserve capacity – simple example Suppose that the dimensioning results in the need of 300 MW for Area A and 200 MW for Area B. Without the exchange of reserve capacity capacity, the respective reserve capacity has to be provided by reserve providing units or reserve providing groups connected to the Area which means that 300 MW have to be connected in Area A and 200 MW in Area B. As a result of the exchange of reserve capacity of 200 MW from Area B to Area A, 200 MW of reserve capacity needed for Area A are now located within Area B, whereas Area A still ensures in addition the availability of the full amount of its own reserve capacity. Although the geographical location of the reserve capacity is different from the dimensioning results for each area, the total amount of reserve capacity within Area A and B is still 500 MW which is equivalent to the total amount without the exchange. Table 5 3 shows references to the limits for exchange of FCR and FRR. Table 53: Exchange limits FCR FRR RR
4.1 RR Within Nordic Synchronous areas See section 9.4.1 No limits defined RR currently not applied in Nordic SA Between Synchronous areas See section 9.4.1 See section 9.4.3 RR currently not applied in Nordic SA
Appears in 2 contracts
Samples: Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr), Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr)
Exchange of reserve capacity. The exchange of reserve capacity allows TSOs to organise and to ensure the availability of reserve capacity resulting from FCR dimensioning (see chapter 6) and FRR dimensioning (see chapter 7), by relying on reserve providing units and reserve providing groups which are connected to an area operated by a different TSO. Figure 1 illustrates the exchange of 200 MW of reserve capacity (FCR, FRR or RR) from Area B to Area A. Figure 1: Exchange of reserve capacity – simple example Suppose that the dimensioning results in the need of 300 MW for Area A and 200 MW for Area B. Without the exchange of reserve capacity capacity, the respective reserve capacity has to be provided by reserve providing units or reserve providing groups connected to the Area which means that 300 MW have to be connected in Area A and 200 MW in Area B. As a result of the exchange of reserve capacity of 200 MW from Area B to Area A, 200 MW of reserve capacity needed for Area A are now located within Area B, whereas Area A still ensures in addition the availability of the full amount of its own reserve capacity. Although the geographical location of the reserve capacity is different from the dimensioning results for each area, the total amount of reserve capacity within Area A and B is still 500 MW which is equivalent to the total amount without the exchange. Table 5 3 shows references to the limits for exchange of FCR and FRR. Table 53: Exchange limits FCR FRR RR
4.1 No limits defined RR currently not applied in Nordic SA Between Synchronous areas See section 9.4.1 See section 9.4.3 RR currently not applied in Nordic SA
Appears in 1 contract
Samples: Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr)
Exchange of reserve capacity. The exchange of reserve capacity allows TSOs to organise and to ensure the availability of reserve capacity resulting from FCR dimensioning (see chapter 6) and FRR dimensioning (see chapter 7), by relying on reserve providing units and reserve providing groups which are connected to an area operated by a different TSO. Figure 1 illustrates the exchange of 200 MW of reserve capacity (FCR, FRR or RR) from Area B to Area A. Figure 1: Exchange of reserve capacity – simple example Suppose that the dimensioning results in the need of 300 MW for Area A and 200 MW for Area B. Without the exchange of reserve capacity the respective reserve capacity has to be provided by reserve providing units or reserve providing groups connected to the Area which means that 300 MW have to be connected in Area A and 200 MW in Area B. As a result of the exchange of reserve capacity of 200 MW from Area B to Area A, 200 MW of reserve capacity needed for Area A are now located within Area B, whereas Area A still ensures in addition the availability of the full amount of its own reserve capacity. Although the geographical location of the reserve capacity is different from the dimensioning results for each area, the total amount of reserve capacity within Area A and B is still 500 MW which is equivalent to the total amount without the exchange. Table 5 shows references to the limits for exchange of FCR and FRR. Table 5: Exchange limits FCR FRR RR
4.1 RR Within Nordic Synchronous areas See section 9.4.1 No limits defined RR currently not applied in Nordic SA Between Synchronous areas See section 9.4.1 See section 9.4.3 RR currently not applied in Nordic SA
Appears in 1 contract
Samples: Nordic System Operation Agreement (Soa) – Annex LFCR
Exchange of reserve capacity. The exchange of reserve capacity allows TSOs to organise and to ensure the availability of reserve capacity resulting from FCR dimensioning (see chapter 6) and FRR dimensioning (see chapter 7), by relying on reserve providing units and reserve providing groups which are connected to an area operated by a different TSO. Figure 1 illustrates the exchange of 200 MW of reserve capacity (FCR, FRR or RR) from Area B to Area A. Figure 1: Exchange of reserve capacity – simple example Suppose that the dimensioning results in the need of 300 MW for Area A and 200 MW for Area B. Without the exchange of reserve capacity capacity, the respective reserve capacity has to be provided by reserve providing units or reserve providing groups connected to the Area which means that 300 MW have to be connected in Area A and 200 MW in Area B. As a result of the exchange of reserve capacity of 200 MW from Area B to Area A, 200 MW of reserve capacity needed for Area A are now located within Area B, whereas Area A still ensures in addition the availability of the full amount of its own reserve capacity. Although the geographical location of the reserve capacity is different from the dimensioning results for each area, the total amount of reserve capacity within Area A and B is still 500 MW which is equivalent to the total amount without the exchange. Table 5 3 shows references to the limits for exchange of FCR and FRR. Table 53: Exchange limits FCR FRR RR
4.1 RR Within Nordic Synchronous areas See section 9.4.4 No limits defined RR currently not applied in Nordic SA Between Synchronous areas See section 9.4.1 9.4.4 See section 9.4.3 9.4.6 RR currently not applied in Nordic SA
Appears in 1 contract
Samples: Nordic System Operation Agreement (Soa) – Annex Load Frequency Control & Reserves (Lfcr)