Published on January 24, 2009
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Matthias Luther Regional Electricity System and Market towards the Internal Electricity Market (RESYM) Bucharest, 26 October 2007 Supported by: union for the co-ordination of transmission of electricity
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE UCTE-IPS/UPS Study – three major questions to answer Considering technical, organisational and legal issues the study has to answer the following questions: Is a synchronous coupling of IPS/UPS with UCTE feasible? What are the mandatory measures and requirements on both sides? What are the associated costs? Additionally, market aspects and environmental issues are building the conditional framework. First priority: maintaining the present performance of the systems with respect to system security and reliability. page 2 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Facts and framework of the project The three years investigation is a joint project under the responsibility of UCTE The project focus on a synchronous coupling of IPS/UPS and UCTE Additionally, the consideration of non-synchronous link projects is foreseen Budget: approximately 10 million € Nearly 100 experts from both sides involved No example in the world of a synchronous transmission system - with 900 GW installed generation capacity - serving 700 million customers - in 10 time zones page 3 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE System integration vs. System coupling IPS/UPS UCTE System coupling: System A System B rules rules rules rules Allocation of corresponding and Coupling further mandatory Integration • technical • organisational IPS/UPS UCTE rules rules • legal System A rules System B measures and rules on both sides. Mandatory interconnection rules page 4 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE UCTE-IPS/UPS study – common project organisation Project Representative Board (PRB) PM / PM UCTE PM IPS/UPS Project Management Board (PMB) WG 1: WG 2: WG 3: WG 4: WG 5: Steady State System Power Operation and Legal Analysis Dynamics System Organization Aspects Control Technical Aspects page 5 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Initial time schedule and project phases l t ua ep 8 t or pt ns or l R 00 ul or 05 ep ce io na l 2 mf 20 R on at si o” Fi pri il “g C pr A 2004 2005 2006 2007 2008 A phase 1 phase 2 phase 3 pre- final Model Verification Assessment phase phase Preparation and Simulation and Results • further analyses • final report • ToR • Project kick-off • verification of • evaluation of • final accounting • TEN-E • survey of IPS/UPS models results • end of project Application system • power system • identification of • Set up of • installation of simulations measures and their consortia measurement • sensitivity costs • Cooperation devices analyses • presentation of Agreement • power system results measurements • preparation of draft • data collection of final report • preparation of models page 6 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Summary of Analysis Program Steady State Analysis Load flow simulation of nominal and emergency conditions Estimation of interface transmission capacity Identification of most probable load flow scenarios System Dynamics Transient and small signal stability analysis Impact of IPS/UPS Emergency Control Automatics Power System Control Power / frequency control Voltage / reactive power control Analysis of defense, disconnection and restoration plans Operation and Organization Analysis of operational practice Guidelines for interface procedures Coordination of operation (i. e. data exchange, congestion management, etc.) Legal Aspects Analysis of legal frameworks Legal case studies Identification of legal requirements for synchronous operation page 7 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Merged UCTE-IPS/UPS load flow study model Load flow model includes representation for the planning horizon 2008 of HV and UHV network (220 kV and above) Important transmission lines of lower voltages (inter-system transmission lines, generator lines of large power stations) Significant power stations in the interface area Volume of load flow model 3,910 nodes 9,730 ties (lines and transformers) 770 generator nodes Total load (winter peak load 10 GMT): 530 GW page 8 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Transfer scenarios for load flow analysis France page 9 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Wide Area Measuring System (WAMS) in UCTE 31 Portile de 22 23 Fier 24 20 measuring devices: ) ) ( ) 32 Tantareni 21 ) ) ( ) ) 33 Blagoevgrad ) installed ( ( ) ) ) ( time ) 34 Ag.Stefanos ) ( ) ) ( planned ) ( 35 Bassecourt ) ( synchronisation ) ( ( ( 19 ( ( 36 Mettlen 44 25 1 Cartelle ( by GPS ( ( ( 37 Lavorgo ( ( ( 2 Montearenas ( ( ( ( 38 Soazza ( ( 3 Aldeadavila ( 18 ( (( 39 Rondissone ( ( 4 San Sebastian de las Reyes ( 26 ( 40 Redipuglia ( ( 27 5 Hernani ( 41 Aurelia 6 Arkale ( 28 42 ( ) ( Brindisi 7 Biescas ) 43 Sorgente 8 Vic ( ) 2944 Avelgem ( 9 Rubi ) ( ( 10 Benejama ) 17 30 ( 11 Puerto de la Cruz ) ( 2 ( 12 Cedillo 4 5 6 ) ( 7 16 ( 13 Saucelle ) ) 1 ) ) ) 14 Albertville ( ( ) 31 ( ) 15 Tavel ) ) ( ) ( ) ) 16 Saucats 3 ) ) ) 40 17 Tabarderie ) 32 ) ) 18 Lonny ) 37 ) ) 19 Uchtelfangen 38 39 ) 20 Hagenwerder 36 ) 13 14 35 ) 21 Röhrsdorf 15 22 Krajnik 42 12 23 Wielopole 8 33 41 9 24 Rogowiec 25 Polaniec ( 26 Györ 45 Oujda ( 27 Göd 11 34 46 Ghazaouet ( 28 Sajoszöged 43 10 47 Tlemcen 29 Heviz 48 Oued Sly 49 47 48 45 46 30 Paks 49 Jijel 50 51 52 50 Biskra 51 El Aouinet 52 Tajerouine 53 53 Tataouine page 10 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Verification of UCTE dynamic study model: Outage of 1200 MW generation capacity in Spain (9 February 2006) recordings simulations with study model Thu, 2006-02-09; 11:26:47 - Generation Outage: NUEVA ESCOMBRERAS (ES) dPa=-1200 MW 50,030 50,03 f [Hz] SS Reyes (ES) 50,020 50,010 50,01 Uchtelfangen (D) Röhrsdorf (D) 50,000 Portile de Fier (RO) frequency [Hz] E /P R SO 49,990 49,99 GR E P deFier ortile 49,980 Röhrsdorf 49,970 49,97 49,960 49,95 49,950 49,940 49,93 49,930 0,00 2,00 4,00 6,00 8,0 10,00 12,00 14 11:27:20 0 ,00 16,00 18,00 20,00 22,00 24,00 26,00 28,00 30,00 11:26:35 11:26:40 11:26:45 11:26:50 11:26:55 11:27:00 11:27:05 11:27:10 11:27:15 Tim [s] e page 11 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Preliminary findings the necessity of the transmission network re-enforcements mainly dedicated to the IPS/UPS interface area, a higher potential risk for the dynamic stability of the interconnected systems compared to the current performance of both systems, the adaptation and harmonisation of today’s existing defence and restoration plans in both synchronous areas the need for interzonal, bilateral and multilateral agreements in order to setup a legal basis for a future reliable market platform with the focus on necessary organisational and operational issues under the framework of EU-market requirements and standards The preliminary results underline that - even if a synchronous coupling mode of operation may appear viable under the implementation of certain pre-conditions - it can only be understood as a long term option for creating a joint electricity market platform. page 12 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Outlook: expected results in 2008 An evaluation of the feasibility considering technical, operational, organisational and legal aspects based on available results An allocation of necessary measures and their associated costs to be made on both sides of the interface. An open outlook on non-synchronous system coupling possibilities aiming at an economic comparison for the investigated system coupling and an indication for the time horizon for a possible implementation for both variants. The final study results may form a basis for further steps under supervision of the European Commission and other stakeholders. Nevertheless, any decision need to be made by stakeholders taking into account the two further fundamental pillars - reciprocity in market conditions - compatibility of environmental standards including nuclear safety page 13 Matthias Luther; 26 October 2007
The Feasibility of Synchronous Interconnection between IPS/UPS and UCTE Visit us: www.ucte-ipsups.org page 14 Matthias Luther; 26 October 2007
Feasibility Study: Synchronous Interconnection of the IPS/UPS with the UCTE Summary of Investigations and Conclusions November 2008 Supported by
17 Feasibility Study: Synchronous Interconnection of the IPS/UPS with the UCTE Summary of Investigations and Conclusions December 2008 Supported by
union for the co-ordination of transmission of electricity UCTE, 15 Boulevard Saint-Michel, 1040 Brussels, Belgium, firstname.lastname@example.org Matthias Luther
Feasibility Study: Synchronous Interconnection of the Power Systems of IPS/UPS with UCTE SUMMARY OF PROJECT STATUS December 2006
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title: feasibility study: synchronous interconnection of ipsups and ucte new step towards paneuropean power