SI_Zagorje ob Savi_Župnijska cerkev Sv. Petra in Sv
Transcription
SI_Zagorje ob Savi_Župnijska cerkev Sv. Petra in Sv
Project summary Župnijska cerkev Petra in Pavla Zagorje ob Savi Slovenia Building Type of building Number of users / dwellings, floors Year of construction Total effective area (heated) Hot tap water consumption (source) Whole energy consumption for heating purpose after CSTS implementation System engineering Year of construction of CSTS Type of collectors Thermal power Aperture area of collectors*) Buffer storage Hot tap water storage Total capacity of boilers (natural gas) Type of hot tap water heating Type of heating system Church ./. 1874 (2000–2005) ./. m2 ./. m3/a, 60,500 kWh/a 2002 Flat vacuum collectors with vacuum pump 22 kWtherm 32 m2 2 m3 ./. m3 39 kW ./. Centralised Costs Total cost solar system Cost of CSTS / gross area of collectors Subsidies 14,500 Euro 422 Euro/m2 0% Output Output of solar heat**) Reduction of final energy***) CO2-emissions avoided Solar performance guarantee not yet available not yet available ./. No *) **) ***) Aperture area = light transmitting area of the front glass measured, between storage and piping to taps (solar system output) related to the measured output mentioned before SOLARGE – Good Practice Database Description Parish church in Zagorje ob Savi was build in 1874, mainly from the stones. Because of static problems the renovation began in the year 2000. Besides others the renovation includes the protection of constructions and interior, which were in bad conditions due to the high content of water in the constructions and high air humidity. According to the good experience with low temperature walls heating in the church in Mokronog (in SE part of Slovenia) the same system was chosen. Tubes were installed in outer walls up to 80 cm over the floor level. Solar system consists of 32 m2 of vacuum flat solar collectors and a 2 m3 heat storage. In parallel to the solar system, a gas boiler is installed. The system is used only for heating of the church and it operates through the whole year while back-up gas boiler operates only from the end of October to the March. Mr. Matjaž Križnar, priest at Župnijska cerkev Sv. Petra in Sv. Pavla: „The combination of low temperature heating and solar heating enables great advantages compared to other systems. The system efficiently improves indoor conditions, protects the interior and runs from March to November without any additional cost. Although the exact amount of heat collected with solar system is unknown, the consumption of energy for heating the church is much lower then in other comparable churches. Such systems can be multiplied in number of other churches.“ Owner and operator Roman Catholic Church, Parish church Župnijska cerkev Sv. Petra in Sv. Pavla G. Matjaž Križnar Cankarjev trg 3 1410 Zagorje, Slovenia Phone: +386 31 689970 [email protected] www.solarge.org Technical description Župnijska cerkev Petra in Pavla Zagorje ob Savi Slovenia Description of the CSTS Year of construction of CSTS Thermal power Gross area of collectors Aperture area of collectors Type of collectors Type of assembly Orientation of collectors Inclination angle to horizon Freezing protection Overheating protection Operation mode Use of CSTS for Buffer storage Hot tap water storage Control of backup-system / CSTS SOLARGE – Good Practice Database 2002 22.4 kWtherm. 34.4 m2 32.0 m2 Flat vacuum collectors with vacuum pump Roof top South (°) 32° Glycol Expansion vessel High flow Thermal activation of the walls and heating of the church 2.0 m3 (one storage tank) ./. m3 (heating system only) Separated control www.solarge.org Technical description (2) Župnijska cerkev Petra in Pavla Zagorje ob Savi Slovenia Hot tap water system Type of hot water heating Recirculation system For decentralised systems: The installation on the consumer site Size of storage for hot tap water Specification Space heating system Type of heating system Number of boilers Total capacity (power output) of boilers Capacity of each boiler and the year of construction Energy source Type of boiler system Type of operation Operator of the CSTS system CSTS monitoring Data accessible via internet Scientific monitoring / follow up Maintenance contract Visualisation of the solar heat output Yield of CSTS plant Output of solar heat Origin of data Measuring point Reduction of final energy Origin of data Solar performance guarantee Heat consumption Whole energy consumption for heating purposes after CSTS implementation Origin of data Energy used for Whole energy consumption for heating purposes before CSTS implementation Total tap water consumption Hot tap water consumption Hot tap water temperature Cold water temperature SOLARGE – Good Practice Database Hot tap water is not provided in this object. Centralised 1 39 kW No. 1: 39 kW (2002) Natural gas Low temperature Summary Solar system is used for thermal activation of church walls through the whole year. It consist of a 32 m2 large field of solar collectors. A plate heat exchanger is installed between solar collectors and heat storage with a volume of 2 m3. The gas boiler is connected parallel to the heat storage and it is used only between the end of October till March. Parallel tubes are built in outer walls up to 80 cm above the floor. 40 tube loops are used, divided in 4 groups. The main advantages of thermal activation of outer walls are: no problems with wet constructions, protection of paintings and wood interior and much better indoor environment. Self-operation No No No Yes: once a year No not yet available ./. ./. The church was not heated before restoration ./. No 60,500 kWh/a Measured Space heating The church was not heated before restoration 0 m3/a 0 m3/a, ./. ./. www.solarge.org Financing & Investment Župnijska cerkev Petra in Pavla Zagorje ob Savi Slovenia Introduction The heating and the solar systems were financed by many individual donators and they were build during the urgent renovation process. Therefore the costs of the bought systems were lower because no additional investments for installing the systems in the building were needed. Financing of CSTS Form of financing Distribution in percentage Costs of solar materials Total cost of solar system Detailed costs for Collectors Elevation / mounting structure Storage / heat exchanger Backup heater Control Installation Planning / Engineering Others Operation costs of heating system Power cost for pumping Maintenance cost Monitoring cost Other operation cost Total operation cost Or: Increase of operation cost after CSTS implementation SOLARGE – Good Practice Database Purchase < many individual donators 0% 14,500 Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro n. a. Euro/a n. a. Euro/a n. a. Euro/a n. a. Euro/a n. a. Euro/a n. a. Euro/a www.solarge.org Development & Experiences Župnijska cerkev Petra in Pavla Zagorje ob Savi Slovenia Experiences management Experience problems or failures? Find solutions to these problems or failures? Yes: once per year (at the start of the heating season) the vacuum pump must be used for reducing the pressure in flat solar collectors; during the summer the pressure is higher, but this is some kind of additional overheating protection. Yes Financial effects / project performance Project economically efficient? Fiscal or other financial effects? Effects on rental fees? Yes n. a. No Experiences technical staff Experience problems or failures? Find solutions to these problems or failures? n. a. n. a. SOLARGE – Good Practice Database Summary of experiences / Notices to the project performance The combination of low temperature heating and solar heating enables great advantages compared to other systems. The system efficiently improves indoor conditions, protects the interior and runs between March and November without any additional cost. Although the exact amount of heat collected with solar system is unknown, the consumption of energy for heating the church is much lower then in other comparable churches. Such system can be multiplied in a number of other churches. www.solarge.org