Plus Energy Buildings
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- Sybil Gardner
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1 Exportinitiative Energieeffizienz Plus Energy Buildings Construction Design of the Future
2 Agenda Towards Plus Energy Buildings Plus Energy Buildings what is that? Elements of Plus Energy Buildings Outlook
3 Development of Energy-saving Construction
4 Prediction From 2020 onwards, all new residential buildings in Europe will be more or less Plus Energy Buildings! = mini-power-stations!
5 Plus Energy Buildings what is that? Balance of total energy demand Equals Renewable energy generation
6 Plus Energy Buildings how to get there? Two steps: Radical reduction of energy demand for heating, cooling, lighting and ventilation compared to conventional design calculations/simulations Use of renewable sources to cover the remaining energy demand depend strongly on local climate Important: First step is reduction of energy demand, second step: Technologies!
7 Solar Decathlon in Washington, D.C. Source: US.Dept of Energy Solar Decathlon; 2009 Solar Decathlon; Stefano Paltera
8 Winner of the Solar Decathlon 2007 Source. (TU Darmstadt) 2007 Solarhaus Solar Decathlon Team Deutschland 2007
9 Solar Decathlon - Washington, D.C., 2009 Sieger Team Germany (TU Darmstadt) 2009
10 Solar Decathlon Europe 2010 Team Bavaria Source: University of Applied Sciences Rosenheim
11 Elements of Plus Energy Buildings Reduction of transmission losses Additional insulation Use of advanced, energy efficient windows Reduction of thermal bridge Coating of surfaces Reduction of the surface to floor area ratio
12 Vacuum Insulation Panel Vacuum insulation material panel compared to mineral wool panel of the same thermal resistance. Source:
13 Windows Requirements of the Energy Saving Regulation Reference-Standard 2009: UW = 1,3 W/(m²K), g = 0,60 Reference-Standard 2012: UW = 0,9 W/(m²K), g = 0,55 Uw = 5,2 W/(m²K) U g = 5,8 W/(m²K) U eq = 3,71 W/(m²K) q si = - 2,62 C Uw = 1,3 W/(m²K U g = 1,0 W/(m²K) U eq = - 0,6 W/(m²K) q si = 16,1 C Uw = 0,9 W/(m²K) U g = 0,7 W/(m²K) U eq = - 0,9 W/(m²K) q si = 17,27 C South South South
14 Facade Source: University of Applied Sciences Rosenheim
15 Elements of Plus Energy Buildings Reduction of transmission losses Reduction of ventilation losses Sealing of air leakages Measures to achieve demand-controlled ventilation Use of mechanical ventilation systems Ventilated facades, earth ducts
16 Air conditioning
17 Mechanical ventilation system Controlled air change rate earth duct cross flow heat exchanger
18 Ground Temperature (monthly average) Source: Climate consultant 5.0
19 Elements of Plus Energy Buildings Reduction of transmission losses Reduction of ventilation losses Increase of efficiency of heat and cold generation Heating and cooling system Domestic hot water Control system
20 Radiation cooling
21 Operating mode day/night Night Day
22 Building control system Quelle: University of Applied Sciences Rosenheim
23 Elements of Plus Energy Buildings Reduction of transmission losses Reduction of ventilation losses Increase of efficiency of heat and cold generation Increase of daylight availability and the efficiency of luminaries Transparent or translucent building envelope featuring high light transmission values Systems for daylight redirection Control systems
24 Shading system Light transmission East South West Source: University of Applied Sciences Rosenheim
25 Daylight Source: University of Applied Sciences Rosenheim
26 Source: University of Applied Sciences Rosenheim Lightning panel
27 Elements of Plus Energy Buildings Reduction of transmission losses Reduction of ventilation losses Increase of efficiency of heat and cold generation Increase of daylight availability and efficiency of luminaries Measures to avoid air conditioning Solar shading Night ventilation systems Thermally activated building components Heat storage capacity/ use of phase change material
28 Example Developments - PCM as a Building Product Fig. 1: Microcapsule in magnification (BASF) Fig. 2: aqueous microcapsule dispersion (BASF) Fig. 3: Microcapsules as unpressed dry powder (BASF) Fig. 4: PCM-containing gipsum plaster under scanning electron microscope (Knauf) Source: BINE, 2002
29 PCM duct Quelle: University of Applied Sciences Rosenheim
30 Plus Energy Building with Electric Mobility Source: Institut für Leichtbau und Entwerfen (ILEK), Stuttgart, 2010
31 Plus Energy Building & Electric Mobility Increase the marketability of Plus Energy buildings Interface between building and mobility Decentralization of power generation Electric cars and smart grids for temporary storage of energy Intelligent network planning and network use Realization of this model building in Berlin-Mitte on December 2011
32 Yes, we can but we have to make it much more sustainable with a higher ecological, economical, sociocultural and functional quality
33 contact Jan Peter Hinrichs Fraunhoferstr Valley
34 Temperature Tel Aviv Quelle: Climate consultant 5.0
35 Global Horizontal Radiation Source: Climate consultant 5.0
36 Plus Energy Buildings are buildings featuring high energy efficiency intensified use of renewable energies producing more final energy than they consume
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