Active House. Fremtidens helhedsorienterede byggeri. Active House visionen - nye muligheder Bolig for livet fra vision til virkelighed



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Transkript:

DFM KONFERENCEN 2010 28-29 JANUAR 2010 Ellen Kathrine Hansen, Arkitekt MAA, VKR Holding Active House Fremtidens helhedsorienterede byggeri Active House visionen - nye muligheder Bolig for livet fra vision til virkelighed

VKR Gruppen

Dagslys, frisk luft og bedre miljø

Fremtidige krav mindre vinduer og tykkere vægge

Energiressourcer i verden 70 Natural Gas 170 Petroleum 4 15 220 World energy use 15 TW-yr per year Uranium ~ 450 exajoules ~ 440 Quads FINITE ENERGY RESERVES 900 Total reserve COAL 29/01/2010

Energiressourcer i verden Renewable energy 6 11 Biomass 23 WIND Ocean Thermal Energy Conversion Waves 0.5 70 Natural Gas 170 Petroleum 15 World energy use 15 TW-yr per year TIDES 0.3 4 2 Geothermal HYDRO 220 Uranium ~ 450 exajoules ~ 440 Quads FINITE ENERGY RESERVES 900 Total reserve COAL 29/01/2010

Energiressourcer i verden WIND Natural Gas 11 Ocean Thermal 170 Energy Conversion Renewable energy 6 Biomass Petroleum Ikke begrænsninger men muligheder 4 HYDRO 2 220 15 TIDES Geothermal World energy use 15 TW-yr per year ~ 450 exajoules ~ 440 Quads 29/01/2010 Solar Energy 40.000 0.3 FINITE ENERGY RESERVES 23 Waves 0.5 900 Total reserve 70 Uranium COAL

Energi Producerer den energi det forbruger belaster hverken klimaet eller miljøet bygningen er optimeret til at bruge mindst mulig energi producerer vedvarende energi der er integreret i bygningen

Indeklima Sundt og komfortabelt indeklima Masser af dagslys og frisk luft Materialer har minimal påvirkning af indeklima og miljø Et funktionelt og fleksibelt hus

Omgivelser Er i balance med omgivelserne harmoni med landskabet, byggestilen og den arkitektoniske tradition regionale klimatiske forhold er integreret i designet, bygningen er orienteret i forhold til solen og omgivelserne optimeret i forhold til de lokale energiforsyninger og strukturer

Active House An Active House is CO 2 - neutral. It has an exceptionally low level of energy consumption and procduces renewable energy. ENERGY An Active House has a healthy indoor climate, allowing. people to express themselves and live their lives in comfort. INDOOR CLIMATE ENVIRONMENT An Active House is designed, situated and constructed to interact with its environment. 29. januar 2010 #11

Fra vision til virkelighed 8 eksperimenter i 5 lande Et eksperiment er mere værd end 1.000 ekspertantagelser VKR Gruppens stifter Villum Kann Rasmussen

Green Lighthouse Copenhagen, Denmark Public Office house of 950m 2 Calculated energy consumption 3 kwh/m 2 /year 29. januar 2010 #13

Haus der Zukunft Germany Single-family house of 175m 2 55m 2 photovoltaic modules 35m 2 solar thermal collectors Calculated energy consumption 0 kwh/m 2 /year 29. januar 2010 #14

Solar Active House (Solar Akivhaus) Austria Single-family house of 150m 2 Calculated energy consumption 0 kwh/m 2 /year 29. januar 2010 #15

Home for Life Lystrup, Denmark Single-family house of 190m 2 50m 2 photovoltaic modules 6,7m 2 solar thermal collectors 40% window to floor area Calculated energy consumption - 9,4 kwh/m 2 /year 29. januar 2010 #16

Proces 10 tværfaglige workshops hvor innovation skabes ved at sætte eksisterende viden sammen på en ny måde Intern arbejdsgruppe: VELFAC, VELUX, Window Master Undertitel Rådgivere: AART arkitekter Esbensen Ingeniører, KFS-Boligbyg Eksperter: Ingeniørhøjskolen i Århus Alexandra Instituttet Statens Byggeforskningsinstitut

Energikoncept Huset er selvforsynende med El og varme på årsbasis CO 2 -udledning og energiforbrug betales tilbage over ca. 30 år El sælges til nettet eller kunne oplade en el-bil til miljøvenlig transport.

Udviklingsmodel

1. Orienteret

1. Orienteret 2. Åbent

1. Orienteret 2. Åbent 3. Intelligent

1. Orienteret 2. Åbent 3. Intelligent 4. Energiproducerende

Solenergiproduktionen giver et årligt energioverskud

Solenergiproduktionen giver et årligt energitilskud Statements: Bolig for livet lever op til de forventede 2015 krav med fjernvarme som forsyning uden egenproduktion Bolig for livet er beregningsmæssigt 100% energi- og CO2 neutral på årsbasis

3D skitse set fra sydøst

3D skitse set fra sydøst

Vi tester energiforbrug og forudsætninger familien flytter ind

Method Holistic evaluation Definition of method for analysis Measurement data input Analysis of input Comparative studies Result New knowledge Definition of Quantitative measurement methods and matrixes Definition of Qualitative measurement methods and matrixes ENERGY INDOOR CLIMATE ENVIRONMENT Quantitative measurements: Energy behaviour, energy balance, measurements of indoor climate Qualitative measurements: End-users real behaviour and experience of the house Suggestion for a common European standard for future energy and CO 2 - neutral Active Houses. 29. januar 2010 #43

Quantitative measurements Data matrix Design phase Calculated/preconditions Construction phase Measuring uninhabited Operation Phase Measuring inhabited Energy Space heating Hot utility water Electricity consumption: Thermographic investigation Blower Door test Space heating Hot utility water Electricity consumption: Lighting, Appliances, Technical installations Energy production by solar collectors, solar heat pump, solar cells Passive solar heat U-value for roof, external walls and ground deck Energy features of windows, U-, g- value, U eff Lighting, Appliances, Technical installations Energy production by solar collectors, solar heat pump, solar cells Passive solar heat CO 2 from operation (calculations) Indoor Climate Window area Daylight factor Timer for overheat temperature Temperature Calibration, functional test and adjustment of the technical installations Daylight factor Lighting level Air temperature CO 2 -concentration Air humidity Mechanical and natural ventilation Environment Energy used for production of materials/co 2 content of materials CO 2 footprint Relation to local energy supply Relation to incident solar radiation and wind Local building tradition Adaptation to the surroundings and the landscape Solar intensity Air temperature Air humidity Wind speed CO 2 footprint 29. januar 2010 #44

Qualitative measurements Data matrix Design phase Calculated/preconditions Construction phase Measuring uninhabited Operation Phase Measuring inhabited Energy What effects are applied into the design to attract attention to energy? Is focus in creating a feeling of balance between energy and living in the building? Is the building created with attention to energy or has been subsequently applied? How is the experience in creating shape with energy objectives for the designer? How has the interdisciplinary collaboration been carried out? How is energy considered in relation to erecting the building? How is the interdisciplinary collaboration unfolded during construction? Measured energy when new? Experience of living a plus energy life? Experience of balanced relation between life and nature? Effect on everyday life? Awareness of human consumption? Experienced changes in position to nature and energy consumption? Infect on other people? Indoor Climate How is the daylight access integrated in the design? Immediate experience of daylight? Experience of living a plus energy life? What factors are prioritised when designing the good indoor climate? Immediate experience of air quality? Experience of daylight effect on interior space? Has the circumstances for creating been integrated in the process of designing the building? Experience of the influence of fresh air and daylight inside the building and different spaces? Environment How is the local building tradition integrated in the design? Situation and location in landscape? Experience of relations between indoors and out doors? Adaptation to the surroundings and the landscape? Creating relation between place and architecture? Consideration to environment during construction phase? Relation between environment and sustainable architecture? Experience of daylight inside and outside at the site? 29. januar 2010 #45

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