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EC Directive 2004/8/EC on energy cogeneration and its implementation in Slovakia

EC Directive 2004/8/EC on energy cogeneration and its implementation in Slovakia Peter Luby and Marcel Lauko, ECB Bratislava. Eleven categories of CHP covered by this Directive. (a) Combined cycle gas turbine with heat recovery (b) Steam backpressure turbine

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EC Directive 2004/8/EC on energy cogeneration and its implementation in Slovakia

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  1. EC Directive2004/8/EC on energy cogeneration and its implementation in Slovakia Peter Luby and Marcel Lauko, ECB Bratislava

  2. Eleven categories of CHP covered by this Directive (a) Combined cycle gas turbine with heat recovery (b) Steam backpressure turbine (c) Steam condensing extraction turbine (d) Gas turbine with heat recovery (e) Internal combustion engine (f)Microturbines (g) Stirling engines (h) Fuel cells (i) Steam engines (j) Organic Rankine Cycles k) All other technologies in line with definition of CHP.

  3. How these Systems Work

  4. Category A Combined cycle gas turbine with heat recovery Heat Recovery Steam Generator (HRSG) SteamTurbine Generator STG District Heating G DH Gas Turbubine Generator (GTG)

  5. Category B Steam backpressure turbine (c) Steam condensing extraction turbine STG G DH Boiler

  6. Category C Steam condensing extraction turbine STG G DH Boiler Condenser

  7. Category D Gas turbine with heat recovery Heat Recovery Boiler G Gas Turbubine Generator DH

  8. Category E Internal combustion engine ( ICE ) Heat Recovery Boiler ICE G DH

  9. Category F Microturbines Heat Recovery Boiler < 50 kWe G Gas Microturbine DH

  10. CategoryG Stirling engines Cooler Regenerator Heat Source Cold Helium HotHelium Driving Cylinder Compression Cylinder Excentric Flywheel

  11. CategoryG Stirling engine Co-axial version

  12. CategoryG Stirling engine – Reciprocating Design Dual opposed 55 We Stirling TDCs.Created by Jeff Schreiber.

  13. CategoryG Stirling engine Solar arrangement

  14. Anóda Katóda CategoryH Fuel Cell

  15. CategoryH Fuel Cell

  16. Category I Steam Engine Steam Engine G Boiler DH

  17. Category J Organic Rankin Cycle Electric Power Production at Temperature Level of 106°C

  18. Vapor of hexane100 °C Liquid hexane Category JOrganic Rankin Cycle Geothermal Source in Altheim, Austria ORC turbine 1000 kW G Mineral Water 106 °C Evaporator 70 °C Condenser DH Economser Reflux Stream 65 °C 60 °C

  19. Category J Organic Rankin Cycle – Package Unit

  20. Category J Organic Rankin Cycle Condenser Economiser & Evaporator ORC turbine

  21. Category J Organic Rankin Cycle Detail : ORC turbine

  22. Implementation of EC Directive2004/8/EC in Slovakia On 21st March 2007 the Ministry of Economy proposed a Bill "Promotion of high efficiency cogeneration (CHP) production based on the heat demand on the internal energy market". The Bill is intended to define the conditions for supporting high efficiency CHP production, the rules for issuing certificates of origin for electricity produced by high efficiency CHP, and obligations for state administration bodies and CHP producers.

  23. The Bill targets small-scale CHP generation, up to 1 MW. For electricity production to be considered high efficiency CHP, the following criteria must be met: A) Cogeneration production must provide primary energy savings of at least 10 % compared with the separate production of heat and electricity; B) Production from small scale and micro cogeneration units providing primary energy savings may qualify as high-efficiency cogeneration.

  24. Benefits from High Efficiency CHP • Under the Bill, high efficiency CHP electricity producers would be entitled to preferential transmission, distribution and delivery of their electricity . System operators would also be required to buy highly efficient CHP electricity (in the absence of an agreement between the producer and system operator) at a preferential fixed purchase price. • This price has been set by the Regulatory Office for Network Industries for following periods: • - Six (6) years for plant being in operation before Jan 1st 2008 • Eight (8) years for plant being refurbished after Jan 1st 2008, • if gain in efficiency is higher than 2% • - Ten (10) years, for new plant set in operation after Jan 1st 2008

  25. Guarantee of origin certificate The highly efficient CHP electricity producer can apply for a guarantee of origin certificate, establishing that electricity sold is produced by high-efficiency CHP process. The Bill defines input data (general and technical parameters) the application must include; the guarantee of origin is issued by the contributory organisation of the Ministry of Economy after the verification of the data and relevant calculations evaluation.

  26. Responsibilities of Government • Ministry of Economy of the Slovak Republic by its Regulation/Decree define : • - Criteria for the high-efficiency CHP • - Calculation method for electricity produced by CHP process • - Calculation method for the amount of exploitable heat • - Method of calculation of the primary energy savings • - Method of calculation of the CHP efficiency • Boundary and harmonised reference values for the calculation of • CHP electricity and for the calculation of the CHP production efficiency and for the calculation of primary energy savings.

  27. Ministry of Economy report on the progress of the share of high efficiency CHP every four years. For the purpose of the high-efficiency CHP monitoring and reporting, the Ministry of Economy and relevant contributory organisation are entitled to request necessary data from those state administration bodies keeping records of CHP electricity producers and those recording produced emissions data. CHP electricity producers are obliged to keep the records on the CHP operation – monthly energy balance of production and delivery of electricity and heat (the Bill defines the list of necessary data in detail). Annual data is to be provided to the contributory organisation by the CHP producer by 25th January the following year.

  28. CHP Potential in Slovakia First group of CHP sources is formed from small industrial sources. Biggest contributors are following four heavy industries: ·Metalurgy ·Crude oil processing and Petrochemistry ·ChemicalIndustry ·Pulp & Paper Industry Own energy production of these plants produce 2800 GWhe/aof electric power.

  29. Survey of Biggest Cogeneration Plants in Slovakia PlantElectricity Heat Production Production (GWhe/y)(GWht/y) Bratislava I 23.5245 Bratislava II 109.8802 Bratislava III 17.4 167 Bratislava - západ 72.6 424 PPC Bratislava 1200972 Trnava 10.9 372 Martinská teplárenská 121.4733 Zvolenská teplárenská 39.2 347 Žilinaská teplárenská134.2808 Košice 495.01778 Total2 224.0 6 652

  30. Share of CHP in the Slovak Republic belongs to highest in Europe

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