docspega: Room automation for Green Buildings
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spega: Room automation for Green Buildings
Room automation for Green Buildings Moers, April 2012 Energy efficiency Room automation spega Room automation for Green Buildings Agenda Green Buildings Benefits from room automation Impact on DGNB and LEED Optimum room automation Example projects Literature Energy efficiency Room automation spega 2 Green Buildings Dimensions of sustainablility in the building sector * Ecological quality - Evaluation of energy consumption and resources - Impact on the environment Economical quality - Evaluation of life-cycle costs - Evaluation of value stability Socio-cultural quality - Evaluation of functional characteristics - Impact on the users Proces quality - Evaluation of planning and construction processes Site quality - Evaluation of site-related characteristics * Summary of evaluation criteria of DGNB, LEED and BREEAM Energy efficiency Room automation spega 3 Green Buildings German Sustainable Building Council (DGNB) Evaluation New Construction Office and Administration Ecological quality Economical quality Socio cultural and functional quality Energy efficiency Room automation spega 4 Green Buildings Leadership in Energy & Environmental Design (LEED) Criteria New Construction Office and Administration Innovatio n in Design Indoor Environmental Quality Materials & Recources Energy & Atmosphere Water Efficiency Sustainable Sites Category Credit No. Description p1 Construction Activity Pollution Prevention c1 Site Selection c2 Development Density and Community Connectivity c3 Brownfield Redevelopment c4 Alternative Transportation c5 Site Development c6 Stormwater Design c7 Heat Island Effect c8 Light Pollution Reduction p1 Water Use Reduction c1 Water Efficient Landscaping c2 Innovative Wastewater Technologies c3 Water Use Reduction p1 Fundamental Commissioning of Building Energy Systems p2 Minimum Energy Performance p3 Fundamental Refrigerant Management c1 Optimize Energy Performance c2 On-site Renewable Energy c3 Enhanced Commissioning c4 Enhanced Refrigerant Management c5 Measurement and Verification c6 Green Power p1 Storage and Collection of Recyclables c1 Building Reuse c2 Construction Waste Management c3 Materials Reuse c4 Recycled Content c5 Regional Materials c6 Rapidly Renewable Materials c7 Certified Wood p1 Minimum Indoor Air Quality Performance p2 Environmental Tobacco Smoke (ETS) Control c1 Outdoor Air Delivery Monitoring c2 Increased Ventilation c3 Construction Indoor Air Quality Management Plan c4 Low-Emitting Materials c5 Indoor Chemical and Pollutant Source Control c6 Controllability of Systems c7 Thermal Comfort c8 Daylight and Views Points 1 5 1 12 2 2 2 1 4 2 4 19 7 2 2 3 2 4 2 2 2 2 1 1 1 1 2 4 1 2 2 2 c1 Innovation in Design 5 c2 LEED Accredited Professional 1 Energy efficiency Room automation spega Total cat. Total 26 10 Ecological quality 35 100 - Water efficiency - Energy and atmosphere - Materials and Resources 14 Socio-cultural quality 15 Innovations 5 Green Buildings Critera dimensions of the evaluation systems Dimension Ecological Q. Economical Q. Socio-cultural Q. Process Q. Site Q. DGNB LEED BREEAM ☺ ☺ ☺ ☺ ☺* ☺ x ☺ ☺ ☺ ☺ x ☺ x ☺ * Evaluated separately Energy efficiency Room automation spega 6 Green Buildings Who benefits from Green Buildings? Socio-cultural User m no o Ec l ica Investor Ec olo g ica l Environment Fact: Green Buildings are benefical - independently from a certification! Energy efficiency Room automation spega 7 Room automation for Green Buildings Agenda Green Buildings Benefits of room automation Impact on DGNB and LEED Optiumum room automation Example projects Literature Energy efficiency Room automation spega 8 Benefits of room automation What are the effects from room automation? Energy-efficiency 9 Saving lighting energy 9 Saving energy for heating, cooling and air conditioning Flexibility of usage 9 Reconfiguring space partitioning 9 Functional changes Ergonomics 9 High thermal and visual comfort 9 Influence of the users Energy efficiency Room automation spega 9 Benefits of room automation Impact of building automation to energy-efficiency Emission Distribution Production Direction of energy flow Pipe system/ Mixers Heating boiler Chilled ceilings Pipe system Chiller Luminaires Cable trays/ Distribution boards Transformer/ Main distribution RAUM Direction of control Radiators Heat required? Light required? Only room automation can decide wether certain energy emission is reasonable or not! Room automation Energy efficiency Room automation PLC system spega 10 Benefits of room automation Impact of building automation to energy-efficiency BAC system ng i s i tim ! Op rations SCADA ope system Room automation system ng y! i d i Avo f energ te o s a w Energy efficiency Room automation spega PLC automation system su ting gy! p a Ad f ener o y l p p 11 Benefits of room automation Saving potential on lighting energy (University of Biberach) RA function* Savings** Influencing factors Constant light control 35 – 50 % -> sufficient daylight provision -> high illuminance level (>300lx) -> most efficient with slat tracking control Daylight switch 25 – 45% -> sufficient daylight provision -> high illuminance level 5 – 8% -> sufficient daylight provision (presence-depending) (presence-depending) Automatic solar control Slat tracking control Automatic lights 10 – 13 % n.s. -> sufficient daylight provision -> most efficient with constant light control -> intermittent presence (e.g. corridors) * According to VDI 3813-2 Room automation functions ** Saving potentials on lighting energy acc. to DIN V 18599 and EN 15232 compared to EPBD reference building (University of Biberach, 2007) Energy efficiency Room automation spega 12 Benefits of room automation Saving potential on thermal energy (I) RA function* Savings** Influencing factors Energy mode selection with time program 5 – 10% -> long operating time of boilers and chillers -> low building mass Energy mode selection with presence detection 5 – 10% -> longer periods of absence during operation time of boilers and chillers Energy mode selection with window monitoring 5 – 10% -> low building mass Free night cooling n.s. Summer compensation n.s. Load optimisation n.s. -> air circulation must be possible * According to VDI 3813-2 Room automation functions ** Saving potentials on thermal energy acc. to DIN V 18599 and EN 15232 compared to EPBD reference building (University of Biberach, 2007) Energy efficiency Room automation spega 13 Benefits of room automation Saving potential on thermal energy (II) RA function* Savings** Influencing factors Automatic thermal control 5% -> high daylight provision -> outside sunblind system required Time program for sunblinds n.s. -> prevents cooling-down during night * According to VDI 3813-2 Room automation functions ** Saving potentials on thermal energy acc. to DIN V 18599 and EN 15232 compared to EPBD reference building (University of Biberach, 2007) Energy efficiency Room automation spega 14 Benefits of room automation 1. Significant reduction of primary energy demand… kWh/m2a DHW Lighting Cooling Heating 250 200 60% savings in electrical energy for lighting 150 45% savings in electrical energy for cooling/AC 100 50 0 Office w/o e.control* Office with e.control** * Data source: Reference calculation in LonMark study acc. to DIN V 18599 ** Saving potentials according to LonMark study 2007 (University of Biberach) Energy efficiency Room automation spega 25% savings in thermal energy for heating 15 Benefits of room automation …automatically leads to reduced life-cycle costs! 3.500 Capitalised value [Euro/Office] 3.000 2.500 2.000 1.500 1.000 500 0 -500 -1.000 0 1 2 3 Angaben zum Raumautomationssystem: Investitionskosten (ohne MWSt.) Darlehen (mit gleichbleibender Annuität) Zinssatz Laufzeit Energieeinsparung Strom Energieeinsparung Öl/Gas Betriebs- und Wartungskosten Bezugspreis Strom (im Basisjahr) Preissteigerungsrate Strom Bezugspreis Öl/Gas (im Basisjahr) Preissteigerungsrate Öl/Gas Allgemeine Inflationsrate Zinssatz für Barwertermittlung Steuersatz Energy efficiency 4 711 0 4,5% 15 694 600 0,50% 0,1600 6,0% 0,0700 6,0% 2,0% 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Time [Years] € € p.a. Jahre kWh/a kWh/a p.a. der Herstellkosten €/kWh p.a. €/kWh p.a. p.a. 4,0% p.a. 0% Room automation spega 16 Benefits of room automation 2. Room automation ensures full flexibility of usage! Energy efficiency Room automation spega 17 Benefits of room automation 2. Room automation ensures full flexibility of usage! 230V AC LON M Energy efficiency Room automation M spega M M 18 Benefits of room automation 2. Room automation ensures full flexibility of usage! 230V AC LON M Energy efficiency Room automation M spega M M 19 Benefits of room automation 2. Room automation ensures full flexibility of usage! 230V AC LON M Energy efficiency Room automation M spega M M 20 Benefits of room automation 3. Room automation increases comfort! M 1. Noon - Illumination with daylight - Sunblinds not required - Cooling active Energy efficiency Room automation +23°C >500lx spega 21 Benefits of room automation 3. Room automation increases comfort! M 30% 2. Evening - Illumination with daylight and artificial light - Sunblinds required - Heating and cooling not required Energy efficiency Room automation +22°C >500lx spega 22 Benefits of room automation 3. Room automation increases comfort! M 100% 100% 3. Night - Illumination with artificial light - Sunblinds not required - Heating active Energy efficiency Room automation +21°C >500lx spega 23 Benefits of room automation Why room automation for Green Buildings? l ca i om on c E Socio-cultural Fle x of ibili usa ty ge Ergonomics Ec olo g ica Energy-efficiency Energy efficiency Room automation spega l Fact: Room automation optimises all aspects of sustainability! 24 Room automation for Green Buildings Agenda Green Buildings Benefits of room automation Impact on DGNB and LEED Optiumum room automation Example projects Literature Energy efficiency Room automation spega 25 Impact on Green Buildings Impact on DGNB certification Evaluation matrix: Office and administration (DGNB) Reduction of primary energy demand acc. to DIN V 18599 (1-5, 10,11) 250 Warmw. 200 Heizung Beleuchtung Kühlung 150 100 50 0 ohne RA mit RA Investment in room automation cuts life-cycle costs (16) Room automation ensures: - daylight provision, glare-free (22) - innovative operation concepts (23) Flexibility with decentralised distribution boxes increases: - Value stability (17) - Area efficiency (27) - Feasibility of conversion (28) Energy efficiency Room automation spega 26 Impact on Green Buildings Impact on LEED certification Criteria New Construction Office and Administration Innovatio n in Design Indoor Environmental Quality Materials & Recources Energy & Atmosphere Water Efficiency Sustainable Sites Category Credit No. Description p1 Construction Activity Pollution Prevention c1 Site Selection c2 Development Density and Community Connectivity c3 Brownfield Redevelopment c4 Alternative Transportation c5 Site Development c6 Stormwater Design c7 Heat Island Effect c8 Light Pollution Reduction p1 Water Use Reduction c1 Water Efficient Landscaping c2 Innovative Wastewater Technologies c3 Water Use Reduction p1 Fundamental Commissioning of Building Energy Systems p2 Minimum Energy Performance p3 Fundamental Refrigerant Management c1 Optimize Energy Performance c2 On-site Renewable Energy c3 Enhanced Commissioning c4 Enhanced Refrigerant Management c5 Measurement and Verification c6 Green Power p1 Storage and Collection of Recyclables c1 Building Reuse c2 Construction Waste Management c3 Materials Reuse c4 Recycled Content c5 Regional Materials c6 Rapidly Renewable Materials c7 Certified Wood p1 Minimum Indoor Air Quality Performance p2 Environmental Tobacco Smoke (ETS) Control c1 Outdoor Air Delivery Monitoring c2 Increased Ventilation c3 Construction Indoor Air Quality Management Plan c4 Low-Emitting Materials c5 Indoor Chemical and Pollutant Source Control c6 Controllability of Systems c7 Thermal Comfort c8 Daylight and Views Points 1 5 1 12 2 2 2 1 4 2 4 19 7 2 2 3 2 4 2 2 2 2 1 1 1 1 2 4 1 2 2 2 c1 Innovation in Design 5 c2 LEED Accredited Professional 1 Energy efficiency Room automation spega Total cat. Total 250 Warmw. 200 Heizung Beleuchtung Kühlung 150 26 100 50 0 10 ohne RA mit RA Reduction of primary energy demand (EA p1,p2, c1, ID c1) 35 100 Room automation supports enhanced commissioning (EA c3) and verification (EA c5) 14 15 Room automation ensures: - Air quality (IE c1/2) - innovative operation concepts (IE c6) - daylight provision (IE c8) 27 Room automation for Green Buildings Agenda Green Buildings Benefits of room automation Impact on DGNB and LEED Optiumum room automation Example projects Literature Energy efficiency Room automation spega 28 Optimum room automation Requirements for the planning process Energy-efficiency 9 Achieve BAC Efficiency class A acc. to EN 15232 9 Choose efficiency functions of VDI 3813-2 chapter 8 Flexibility of usage 9 Specify segment-oriented approach acc. to VDI 3813 Ergonomics 9 Choose functions acc. to VDI3813-2 9 Check implementation of innovative operation concepts Integrated planning 9 An integrated planning of all control equipment for lighting, sunblind and HVAC is required Energy efficiency Room automation spega 29 Optimum room automation EN 15232 – Class A for optimum energy efficiency Highly energy-efficient BAC system C Standard BAC system Non-efficient BAC system or no system Room automation A B Partly optimised BAC system Energy efficiency e.controlTM spega D 30 Optimum room automation EN 15232 – Meeting the requirements for class A Definition of classes of t 1 c a e t l s b b Ta A 2 3 152 EN AUTOMATIC CONTROL Residential D C B Non residential A D C B A 1 HEATING CONTROL 1.1 Emission control The control system is installed at the emitter or room level, for case 1 one system can control serveral rooms 0 No automatic control 1 Central automatic control 2 Individual room control 3 Individual room control with communication 4 Individual room control with communication and demand control (presence-depending) Control of distribution network hot water temperature (supply or return) Similar functions can be… Fact: Efficiency classes B and A require an integrated room automation system Energy efficiency Room automation spega 31 Optimum room automation Relation between EN 15232 and VDI 3813-2 Chapter 8 in y r a . 20 p m Sum alogue c at a g s pe Energy efficiency Room automation spega 32 Optimum room automation VDI 3813 – the first functional specification VDI 3813 Room automation (RA) Part 1: Definitions Part 2: Functions Part 3: Macros Energy efficiency Room automation (05/2011) (05/2011) (under work) spega 33 Optimum room automation VDI 3813 – Flexibility of usage as a shell model Facility Building Area Room Segment Energy efficiency Room automation spega 34 Optimum room automation VDI 3813 – Flexibility of usage as a shell model Area Energy efficiency Room automation Room spega Segment 35 Optimum room automation VDI 3813 – Room automation functions… Sensor functions (8) OUTPUT Application functions (30) INPUT 1 OUTPUT Actuator functions (3) INPUT OUTPUT INPUT 2 PARAMETER PARAMETER PARAMETER Operation functions (6) OUTPUT INPUT PARAMETER Energy efficiency Room automation spega 36 Optimum room automation Segment Funktion Raum Segment Anlage Raum … are visualised in a schematic drawing Energy efficiency Room automation spega 37 Optimum room automation … and listed in a RA function list R S 7 9 10 11 12 13 1 2 9 1 4 1 2 10 Bemerkungen Nachricht an externe Stelle 8 8 Ereignis-Anweisungstext 6 Dynamische Einblendung 5 R Grafik/Anlagenbild 4 R Historisierung in Datenbank funktionen Ereignis-Langzeitspeicherung Bedien- funktionen Komplexe Information 3) 3 R Weitere Anwendungsfunktionen 2 R Lastoptimierung 1 Volumenstromregelung 7 G Nachtkühlung 6 R Luftqualitätsregelung 5 S Stellwertbegrenzung 4 B 7 4 Sequenzsteuerung 3 6 Ventilatorsteuerung 2 Raum-Zuluftkaskadenregelung 1 Temperaturregelung (Heiz./Kühl.) 6 Funktionswahl 5 Sollwertermittlung 3 Energieniveauwahl mit Startopt. 2 Thermoautomatik 1 R Verschattungskorrektur 3 G Energieniveauwahl 2 ManagementRaumklima Witterungsschutz 1 R Lamellennachführung 7 R Sonnenautomatik 6 5 5 Dämmerungsautomatik 4 R Prioritätssteuerung 4 Dämmerungsschaltung 3 S Sonnenschutz Konstantlichtregelung 2 S Zeitprogramm 3 4 1 S Steuerung über Raumnutzungsart 2 R 3 Belegungsauswertung 1 R Licht stellen 9 Automatiklicht 5 R Treppenlichtschaltung 4 R Lichtschaltung 3 S Antrieb stellen 2 S Sonnenschutz stellen 1 R REL = Relais, DIM = Dimmer, STE = 1-10V, DAL = DALI 230 = 230VAC, 24 = 24VDC, SMI = SMI 2P = 2-Punkt, 3P = 3-Punkt, STE = 0-10V BUS = Bussystem, FUNK = Funkschnittstelle, DE = Digitaleingang, AE = Analogeingang, DA = Digitalausgang, AA = Analogausgang Anwendungsfunktionen Beleuchtung Basis funktionen (lokal) Weitere Aktorfunktionen Weitere Sensorfunktionen 8 2 3 Stellantriebsaktor Niederschlagserkennung 7 Sonnenschutzaktor Windgeschwindigkeitsmessung 6 Lichtaktor Luftqualitätsmessung 1 Helligkeitsmessung Temperaturmessung Taupunktüberwachung Fensterüberwachung 2 Präsenzerkennung 1 Anschlussart 4) Anschlussort 2) Abschnitt Spalte Zuordnung 1) Datenpunkte Zuordnung 1) Zeile Nr. funktionen Weitere Anzeige-/Bedienfunktionen Anschluss Präsenz melden Standardbüros Raumnutzung wählen Gebäudeautom. Anlage: Temperatursollwert stellen Gewerk: 4) Beleuchtung: Sonnensch.: Antriebe: Sonstiges: Ein-/Ausgabe-Information 1) Zuordnung gemäß Schalenmodell VDI 3813-1 Kap. 5 S = Segment, R = Raum, B = Bereich, G = Gebäude 2) Anschlussortbezeichnung frei wählbar, z.B.: DV: Deckenverteiler, BV: Bodenverteiler, UV: Unterverteilung, UP: Unterputz, DE: Deckeneinbau, DA: Deckenaufbau 3) z.B. Kalender, Zeitplan, Trend-Aufzeichnung, Ereignisaufz. AktorBedien-/AnzeigeSensorfunktionen RA-Funktionsliste Tageslichtschaltung Anmerkung: VDI 3813 Blatt 2 12 11 3 3 4 R 1 Gebäude-/bereichsbez. DP 2 02 - Außentemperatur G 3 07 - Witterungsschutzposition G 4 08 - Sonnenstand - Azimut G 5 09 - Sonnenstand -Elevation G 6 10/12 - Jalousieposition B 7 13 - Zeitprogramm EN Büros G 8 14 - Zeitprogramm EN Bespr. G 9 15 - Zeitprogramm Regelfkt. G 10 16 - Vorgabe Raumtemp. 1 1 R 1 1 11 Raumbezogene DP 12 17 - Multisensor R DE BUS 1 1 1 13 18 - Raumbediengerät R UP BUS 14 19 - Lichtschalter Decke R UP BUS 1 15 20 - Lichtschalter Stehl. R UP BUS 1 16 21 - Jalousieschalter R UP BUS S DV DI 1 1 1 2 1 9.2 Trend Helligkeit 2 1 9.1 Tmp, Soll. 9.2 Trend T. 1 17 Segmentbezogene DP 1 1 19 23 - Fensterkontakt S DV DI 20 24 - Stellantrieb Kühldecke S DV 2P 1 1 21 25 - Stellantrieb Radiator S DV 2P 1 1 S DV DALI 1 23 27 - Stehleuchte (Steckdose) S DV REL 1 24 28 - Kippfenster S DV 24V 25 29 - Außenjalousie S DV 230V 1 2 1 1 1 1 420 1 420 1 1 1 700 2520 22 26 - Deckenbeleuchtung 140 18 22 - Taupunktwächter 1 280 280 140 140 140 140 140 140 140 140 140 140 280 420 420 840 140 140 140 420 420 Summe Räume 140 Summe Segmente 420 26 27 Bereiche/Gebäude Ausgabedatum JJ-MM-TT Rev. 1 09-02-05 Name Geprüft JSP Planersteller: VDI e.V. Projekt: Beispielprojekt Bürogebäude Datei: Raumtyp: RA-FL Beispiel.xls Standardbüro Rev. 2 VDI-Platz 1 Zeichnung-Nr.: Rev. 3 40468 Düsseldorf Steuerungsbeschr.-Nr.: 01-002 Blatt-Nr.: 2 von: 3 © VDI 2009 Energy efficiency Room automation spega 38 Optimum room automation e.control offers the ideal integration technology Räume Unit Operation Heat/Cool Air supply Lighting Blinds Weather station BACnet Modbus EnOcean 0-10V MP-Bus DALI SMI LON LA SA xS LON (ISO/IEC 14908) Ctrl SW VA DA spega e.control system (complies with VDI 3813-2) LNS DB Energy efficiency Room automation spega Manufacturer-independend Data base 39 Optimum room automation e.control Designer ensures full flexibility to the operator 9 Graphical software tool for all room automation functions 9 No specific LON know how required 9 Re-partitioning during run-time by by drawing shades 9 Fully compatible with LNS data base standard Energy efficiency Room automation spega 40 Optimum room automation e.control Designer ensures full flexibility to the operator Before: 3 Single offices Energy efficiency Room automation spega 41 Optimum room automation e.control Designer ensures full flexibility to the operator Afterwards: 1 Group office 1 Single office Energy efficiency Room automation spega 42 Optimum room automation e.control control options for interior fitting (wired) Option 1: Standard control panels M M M M M M BAC Network Energy efficiency Room automation spega 43 Optimum room automation e.control control options for interior fitting (wired) Option 2: touch control 1: Integrated Standard control panels panels M M M M M M BAC Network Energy efficiency Room automation spega 44 Optimum room automation e.control control options for interior fitting (wired) Option 2: 3: Integrated Workplace touch operation control viapanels web browser or IP phone 1: Standard control panels M M M M M M BAC Network Tenant LAN Energy efficiency Room automation spega 45 Optimum room automation e.control control options for interior fitting (wireless) Option 4: Wireless sensors and push buttons M M M M M M BAC Network Tentant LAN Energy efficiency Room automation spega 46 Optimum room automation Ergonomics through a perfect user interface Example 1: dialog Web with browser Energy efficiency Room automation spega 47 Optimum room automation Ergonomics through a perfect user interface Example 2: dialog Web with IP phone Energy efficiency Room automation spega 48 Optimum room automation e.control integrates seamlessly into BAC systems BAC system Management system BACnet (OPC) BACnet e.control Room automation BACnet LON Plant control system BACnet (ISO 16484-5) LON (ISO/IEC 14908) TCP/IP backbone Energy efficiency Room automation spega 49 Room automation for Green Buildings Agenda Green Buildings Benefits of room automation Impact on DGNB and LEED Optiumum room automation Example projects Literature Energy efficiency Room automation spega 50 Example projects ThyssenKrupp Quarter, Essen (2011) DGNB Gold EN 15232 Class A 4 buildings with more than 80,000 m2 A spega scope of functions: - Heating/Cooling - Constant-light control - Slat tracking control - Web and IP phones BAC Efficiency class A DGNB Gold Energy efficiency Room automation spega 51 Example projects E.ON Headquarter, Essen (2010) EN 15232 Class A 3 buildings with more than 45,000 m2 A spega scope of functions: - Heating/Cooling - Constant-light control - Slat tracking control Energy efficiency Room automation spega BAC Efficiency 52 Example projects The m.pire, Munich (2010) DGNB Gold EN 15232 Class A 4 buildings with more than 40,000 m2 A Energy efficiency Room automation spega spega scope of functions: - Heating/Cooling - Constant-light control - Slat tracking control 53 Example projects NEXTOWER, Frankfurt (2009) DGNB Gold EN 15232 Class A Sky scraper with 32 floors, 40,000 m2 A* spega scope of functions: - Heating/Cooling - Constant-light control - Slat tracking control - Integr. control panels BAC Efficiency class A Energy efficiency Room automation spega 54 Example projects Süddeutscher Verlag, Munich (2008) LEED Gold EN 15232 Class A Building complex with more than 30,000 m2 A scope of functions: - Constant-light control - Slat tracking control BAC Efficiency class A LEED Gold Energy efficiency Room automation spega 55 Example projects More office buildings with Green Building certificates Roche ORM, Mannheim DGNB Gold ATMOS Office parc, Munich DGNB Silber Lighthouse, Dusseldorf DGNB Silber Rheinwerk 2, Bonn DGNB Silber Silvertower, Frankfurt DGNB Silber Energy efficiency Room automation spega 56 Room automation for Green Buildings Agenda Green Buildings Benefits of room automation Impact on DGNB and LEED Optiumum room automation Example projects Literature Energy efficiency Room automation spega 57 Literature Catalogue / Brochure spega Catalogue 2012: „e.control - Raumautomation“ with information about DGNB, LEED, VDI 3813, EN 15232 Download at http://www.spega.com/catalogue Energy efficiency Room automation spega spega Investors brochure: „e.control – Raumautomation for Green Buildings“ Download at http://www.spega.com/brochure 58 spega - spelsberg gebäudeautomation gmbh zechenstr. 70 47443 moers, germany internet: http://www.spega.com Energy efficiency Room automation spega
