Multilateral Comenius School Partnership Project

1. MultilateralComenius SchoolPartnershipProject • Title of project: „Plus – Energie – House” • projectnumber: 2011-1-DE3-COM06-19211 6 9 – 11 May 2012 Martina Franca Italy

2. HOUSE PROJECT General view Type of home :bungalow Usablefloorarea : 24,20 m² Rate of energy demand for heating :14 kWh/m²

3. HOUSE PROJECT 3D visualization

4. HOUSE PROJECT Utility program • Livingroom - 10,00 m² • Kitchen and hall - 11,78 m² • Toilet - 2,42 m²

5. RENEWABLE ENERGY SOURCES FOR THE PROJECT Zones of wind in Poland • In Poland, thecheapestmethod of obtaining a relativelylargeamount of energy for the house • Requirements for small wind turbine: • 12 m mastortowerwithintheexisting • building • no obstacles to thewest (the most frequent • windsin Poland)

6. RENEWABLE ENERGY SOURCES FOR THE PROJECT A wind turbine – thetechnical data EnerWin 3002

7. RENEWABLE ENERGY SOURCES FOR THE PROJECT A wind turbine – connectionscheme • EnerWin3002 full set: • inverter 3 kW(fullsine) • 600A charge controllerwith • solarcontroller for 500 W • cascadecontrollerheatersup to 15kW • fast, aerodynamicbladeswith • a span of 4 m • 10 pieces of identicalmaintenance - • freebattery • survivalmechanism of strong • winds (up to 200km/h) • maintenance – free rotator (thecable • does not turninsidethemast !)

8. RENEWABLE ENERGY SOURCES FOR THE PROJECT Sun energy zonesin Poland • Realistically, youcanget 400 – 700 KWh/m2 • Itgivesyoucoverage of needs for: • hot water – 60 – 80% • central heating – 10 – 20 % location of thehome

9. RENEWABLE ENERGY SOURCES FOR THE PROJECT Solarcollector – thetechnical data HEWALEX 2SLP-200W

10. RENEWABLE ENERGY SOURCES FOR THE PROJECT Solarcollector – connectionscheme HEWALEX 2SLP-200W – full set • solarcollector • KS2000 SLP: 2 pc • connection set for thecollector • ZPKS 2 • flexibleconnection KS ¾” • cover profile KSL • heater VF200-2 • pump control unit ZPS 6-01 • a set of expansionvessel • ZNP 18DS • heaterconnection kit PW • fluid Termsol EKO -25oC: 20 kg • liquidhand pump for fill • theinstallation

11. RENEWABLE ENERGY SOURCES FOR THE PROJECT Heat pump – technical data VikersønnBjørn 5 • height : 1372 mm • width : 602 mm • depth : 607 mm • power : 380/420V - 3~ - 50 Hz • refrigerant : R407C • powerconsumption : 1,15 kW • heatoutput : 5,03 kW • coefficient of performance COP: 4,38

12. RENEWABLE ENERGY SOURCES FOR THE PROJECT Heat pump – connectionscheme • VikersønnBjørn 5 • inourclimatepipingwiththe • liquidin a closedcircuitis • placed on the 2m depthwhere • temperaturesnever drops • below 50C • obtaining 1kW of energy • requiresreceiving of heatfrom • thesurface 25 – 50 m2

13. RENEWABLE ENERGY SOURCES FOR THE PROJECT Schematic diagram of heating/hot water

14. RENEWABLE ENERGY SOURCES FOR THE PROJECT Recuperator – technical data EkoZefir Rk-150-SP • capacity: 150 m³/h • heatrecoveryrate: 68-84% • externalstaticpressure: 66 Pa • poverconsumption (max): 48W • width: 500 mm • height: 260 mm • depth: 500 mm • stubpipesdimensions: Ø 125 mm • insulationthickness: 30 mm • weightwithoutpackage: 16 kg • poversupply: 230 V/50 Hz • jobposition: horizontal

15. RENEWABLE ENERGY SOURCES FOR THE PROJECT Heat pump – connectionscheme Ventilationmust be designed so thatitdraws a minimum of: • fromthekitchenfrom30 do 70 m3/h (depending on whetherthekitchen • with a window, thenumber of people, kind of stove), • fromthebathroom 50 m3/h, • from a separatetoilet 30 m3/h, • from a roomwithoutwindows (eg. dressing room) 15 m3/h, • fromlivingrooms(in somespecificsituationns) 30 m3/h.

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