BRE Energy Efficient Office of the Future

Slides:



Advertisements
Similar presentations
Institute of Energy and Sustainable Development HVAC S YSTEMS E NERGY D EMAND VS. B UILDING E NERGY D EMAND I VAN K OROLIJA I NSTITUTE OF E NERGY AND S.
Advertisements

Tas seminar/demonstration on Part L 2006 of the Building Regulations Presented by Alan Jones EDSL February
Sustainable Architecture Presented by Caroline Batson Senior Architect and Sustainability Manager.
The Three Tiered Philosophy
The Portland Street Building Back to “Select a building” Back to “Select a building” NatVent Presentation of the building Presentation of the building.
Sustainable Hotel Design Presentation 2 Passive Design Group 5.
Sustainable Hotel Design Group 5 Presentation 4 Demand/Supply Matching.
ATA Melbourne Branch presentation April 2008 Jim Lambert
Chapter 5: Designing for Heating and Cooling 5.1 Organizing the problem a) Fenestration How much is optimum for the building? What should the form of the.
Passive Heating and Cooling
1 ISAT Module III: Building Energy Efficiency Topic 6:Stead-State Building Loads z Fabric Loss z Ventilation Loss z Environmental Temperature z Steady-State.
Energy in Focus Energy Savings with Water Based Systems By Maija Virta Specialist of Indoor Environment Technology.
Passive Cooling. Natural Ventilation Air Cooling Shades.
Tools for Integrated Design ID seminar October Christian Hviid Industrial PhD-student Birch & Krogboe.
DEPT OF ESTATES AND FACILITIES Engineering Team DEPT OF ESTATES AND FACILITIES Engineering Team Too hot, too cold, just right Presented by: Russell Smith.
The Source Book (1...) Natural ventilation for offices The demand for natural ventilation is growing day by day. Natural ventilation can be suitable for.
 Site  Requirements  Local Resources  Initial layout ideas  Brief material selection  Supply options.
Post Occupancy Evaluation of Sustainable Development Projects in the Education Sector Leanne McMillan, Senior Consultant, BRE Scotland.
Best Practices in Energy Efficiency and Renewable Energy in Commercial Buildings EGNRET 28 January 2007.
Concept of Energy Efficiency. Buildings, as they are designed and used, contribute to serious environmental problems because of excessive consumption.
Building Orientation.
Building promoter: PROBAM nv Architect: Declercq E. The Keppekouter project Design issue Design issue Major findings Major findings Keppekouter building.
NatVent Architect: KHR A/S BRF Kredit headquarters Back to “Select a building” Back to “Select a building” Presentation of the building Presentation of.
Towards Net Zero Energy Buildings: Dynamic Simulation of office Building in Three Climate Zones of Europe Nusrat Jung 1,2, Jari Shemeikka 1, Risto Lahdelma.
Norwegian Building Research Institute P.O.Box 123 Blindern Forskningsveien 3B 0314 Oslo Norway   Contact persons: J.T. Brunsell.
The Velux Building NatVent Presentation of the building Presentation of the building The design issue The design issue The building concept The building.
Objectives of NatVent This seven nation pan European project aims to reduce primary energy consumption (and consequently CO2 emissions) in office type.
Energy Performance Certificates
PASSIVE HOUSING By Serena Mehta Passive housing or Passivhaus  “A Passivhaus is a building, for which thermal comfort can be achieved solely by.
Passive House Seminar for Professionals from the Building Sector
The Town Hall of Zevenhuizen S.H. Liem, A.H.C. van Paassen M.Verwaal, H.F. Broekhuizen Delft, April 1998 Presentation of the building Presentation of the.
The European Office Building S.H. Liem, A.H.C. van Paassen M.Verwaal, H.F. Broekhuizen Delft, April 1998 S.H. Liem, A.H.C. van Paassen M.Verwaal, H.F.
Tax Office of Enschede S.H. Liem, A.H.C. van Paassen Delft, April 1998 S.H. Liem, A.H.C. van Paassen Delft, April 1998 Presentation of the building Presentation.
Heating Systems.
Lindab Solus - Simply the natural choice.... lindab | comfort Chilled beam revolution! + Save up to 45 % cooling energy!* + Installation and investment.
 Design a data centre for a large computing company  To have high efficiency standards  Utilise renewable technology  To be an exemplar in design.
HVACR416 - Design Heat Loss / Heat Gain Part 2. External Loads The greatest external load is the sun. The suns heat can get into a building in one of.
Passive Design in the Pacific Environment Passive Design in the Pacific Environment PASSIVE DESIGN FOR THERMAL COMFORT IN A TROPICAL ENVIRONMENT Neil Purdie.
NatVent Best practice when installing air inlets to buildings situated in urban environments. situated in urban environments. check list establishing best.
The Renson Headquarters Renovation issue Renovation issue Major findings Major findings The RENSON- The RENSON- Headquarters More information... More information...
Project Managers Guide to Energy and Water Efficiency Measures in University Buildings Energy Consortium Conference 8 th December 2006 MATTHEW EDIS Building.
The EWZ building Presentation of the building Presentation of the building The design issue The design issue The building concept The building concept.
Improved Precision Leading to Improved Energy Efficiency Edward Decker AE 790 – Intelligent Buildings June 6, 2006.
Riga Technical University Institute of Heat, Gas and Water technology OFFICE BUILDING NIGHT COOLING POTENTIAL IN BALTIC REGION RENARS MILLERS, ALEKSANDRS.
NatVent WindowMaster Building Back to “Select a building” Back to “Select a building” Presentation of the building Presentation of the building Ventilation.
Work Package 1 Perceived Barriers to Natural Ventilation Design of Office Buildings The objective of the study was to identify perceived barriers restricting.
Controlled Airflow Inlets NatVent project,WP3/A3.2 Willem de Gids NatVent TNO Building and Construction Research Controlled inlets Controlled inlets Back.
Work package 2 Performance of naturally ventilated buildings NatVent 19 naturally ventilated buildings 19 naturally ventilated buildings The monitoring.
Chiel Boonstra An Office Building Project Tax Office extension, Enschede Environmental design in practice.
The Basler building The Basler building is situated in the city centre of Basel. This 10 storey, naturally- ventilated building, was built in The.
9. THERMAL MASS  Thermal mass is a measure of a material's capacity to absorb heating or cooling energy. Materials such as concrete or bricks are highly.
To reduce negative environmental impacts. To move towards more natural habitats. To reduce operating costs. To enhance building marketability. To improve.
Site Location: Site Location: Gap Site at Bath Street and Pitt Street Plot: Plot: 50m x 50m Building Area: Building Area: 4000m 2 maximum Building Height:
GUIDE- LINES Integrated Natural Ventilation Design One of the main tasks was to identify the parameters that have the largest influence on the performance.
A New Language Shining the Light on Passive Solar Features and Retrofit Possibilities.
Some Pointers for your assignment..  Passive solar heating is defined as using solar energy incident on windows, skylights, greenhouses, clerestories,
Architect: KHR A/S E.Phil & Son AS headquarters NatVent Back to “Select a building” Back to “Select a building” Presentation of the building Presentation.
Building Envelope. Physical separator between interior and exterior spaces – Walls – Floors – Roofs – Fenestrations (any opening in the structure) – Doors.
4. INTERIOR LAYOUT  Good interior layout will facilitate many of the passive strategies recommended in this toolkit, in particular thermal mass, lighting.
VENTILATION AND FENESTRATION
Back to Basics Engineering Seminar Thursday, 10 November 2011.
ANNEXE OFFICE CONVERSION. Heating Operation Two gas fired boilers provide hot water to two separate circuits, a constant temperature circuit and a variable.
8. VENTILATION  When there is a difference between outdoor and indoor temperature, ventilation can be accomplished by natural means. Strategically placed.
Presenter: Christopher Tsang University: Loughborough University RETROFIT OF DWELLINGS IN CHINESE CITIES.
Architecture Supported by:
LEVEL 4 Air Pressure Testing
‘Sustainability Matters – it’s the future of your business’
DRAUGHT (British English) Draft (American English)
Presentation transcript:

BRE Energy Efficient Office of the Future The Energy Efficient Office Presentation of the building Design Issue Building concept Monitoring Winter Summer Conclusions More information... Back to “Select a building” NatVent

Building presentation (1...) The building was designed by Architects Fielden Clegg Design. The building has three storeys in two blocks connected by an atrium at the west wall of the building. The main axis is running east-west. The ground and first floor contain open plan and cellular offices. The second floor is a large open plan office. On the ground floor there is a large lecture theatre to the north. This is connected to the main building by a circulating zone containing toilets and a display area.

Building presentation (2|) Plan view of ground floor Lecture theatre Main building Circulation zone Atrium

The Design Issue The design brief called for ‘outstanding energy performance’. The Performance Specification, a key element of the building brief, dictates performance targets for energy consumption and carbon dioxide (CO2 ) emissions. The targets (47 kWh/m² for gas - 36 kWh/m² for electricity - 34 kg/m² CO2 emission) represent a 30% improvement on current best practice and were to be met by: avoiding or minimising the use of air-conditioning maximising the benefits of the building fabric in terms of reducing the heating and cooling loads minimising the use of artificial lighting while actively exploiting daylight applying the appropriate level of automatic and user control However, energy efficiency is only acceptable within the parameters of a comfortable and healthy working environment. The internal design conditions for thermal comfort were: For winter: 18°C minimum internal temperature For summer: 25°C is not to be exceeded for more than 5% and 28°C is not to be exceeded for more than 1% of the year

The building concept (1...) natural ventilation Natural ventilation has been utilised to minimise the use of fans. The ground and 1st floors are stack driven using solar towers on the southern façade. The 2nd floor has cross ventilation via openable windows. (see next slides..) Voids in the ceiling slab act as ducts bringing air in from outside and exhausting air out to ventilation stacks. Natural ventilation is used to: Improve the thermal comfort: Intensive (night) ventilation can be applied to cool down the thermal mass (exposed ceilings) of the building. Control the IAQ: The occupants can open windows to control the IAQ exposed ceilings

The building concept (2...) ventilation strategy Voids in the ceiling slab Stack ventilation on hot still summer’s day

The building concept (3...) ventilation strategy Cross ventilation on windy summer’s day Many ventilation openings are automatically controlled. However can override the automatic settings for windows

The building concept (4|) shading and lighting Solar gains are reduced by moveable external louvres on the South side of the building. These louvres improve the thermal summer comfort, but also control glare while still allowing daylight. A fully integrated, intelligent and efficient lighting system has been installed which automatically compensates for daylight levels and occupancy, controlling each light separately. In this way the internal gains of lighting are minimised and linked to the available daylight. Reducing the internal gains of lighting is an important step toward summer comfort in office buildings. External louvres Lighting: control sensor

Monitoring the building The building was monitored in summer and winter. Two rooms on the 1st floor were monitored. The rooms were used normally by occupant. Night cooling was utilised during the summer months. Room 1 Room 2 Open plan Ventilation stacks Corridor zone Atrium N The following parameters were measured: Internal and external CO2 concentration as an indicator of IAQ. Fresh air flow rates and local wind speed and direction. External air and internal air and globe temperatures.

Winter monitoring (1...) air change rates Air change rates are similar in both rooms. Higher ventilation rates coincide with periods of occupancy. There is some correlation of air change rate with wind speed and direction. Air change rates were adequate in both rooms: the CO2 -concentrations are not too high (see next slide) and the air supply is almost zero outside the office hours (reduction of ventilation losses).

Winter monitoring (2...) CO2-concentrations CO2 concentrations are generally below the limit of 1200 ppm.  The IAQ is acceptable Increased levels of CO2 coincide with occupancy. Winter, carbon dioxide concentration in the monitored rooms. 1600 External CO2 1400 Room 2 CO2 1200 Room 1 CO2 1000 Carbon dioxide (ppm) 800 600 400 200 15:00 19:00 23:00 3:00 7:00 11:00 1/8/98 1/12/98 16/01/1998 21/01/1998 25/01/1998 29/01/1998 Date/Time

Winter monitoring (3|) temperatures Temperatures were between 2 to 5oC above the design minimum temperature (18°C). There was little difference between air and globe temperatures.

Summer monitoring (1...) air change rates Air change rates in room 1 were higher than those in room 2, possibly due to poor mixing as a result of opening windows. Again higher ventilation rates coincide with occupancy. Air change rates were adequate during occupied periods. Both offices were closed and locked at night and so did not benefit from night ventilation.

Summer monitoring (2...) CO2-concentrations CO2 concentrations were generally below 1000 ppm. The IAQ is acceptable

Summer monitoring (3|) temperatures The 28°C design maximum temperature was not exceeded. The 25°C lower design temperature was exceeded on some occasions.

Conclusions (1...) Winter Indoor Climate: Adequate ventilation is provided. Internal air quality is acceptable. Comfortable internal temperatures are achieved. Summer Indoor Climate Comfortable temperatures are maintained though the lower design temperature was sometimes exceeded during warm spells. The building has external louvres to reduce the solar gains. Moreover, the building makes use of night cooling. Cooler night time air is drawn in via the openable windows and ceiling voids. Fans in the ventilation towers can be used to assist purging. Ground water cooling can also be used.

Conclusions (2|) The good solar control and combination of high thermal mass and night ventilation did result in lower temperatures and helped maintain comfort. By using ground water cooling the lower design temperature (25°C) could be met.

More information... NatVent The Energy Efficient Office Find more information on the PROBE building in the following documents: \Reports \Monitoring Reports \Summary Reports\gb1summ.pdf global presentation of the buildings (4p./building) contents: building description - ventilation strategy and technology - winter and summer monitoring results - conclusions \Reports \Monitoring Reports \Detailed Reports\gb1det.pdf detailed reports of all 19 monitoring campaigns (20p./campaign) contents: monitoring set up - analysis of results - conclusions Presentation of the building Design Issue Building concept Monitoring Winter Summer Conclusions More information... You can read and print pdf-files with the Acrobat® Reader ®3.0. Program. This program is free. Download it from the Acrobat web site: www.adobe.com OR run the installation file ar32e301(1).exe in the directory \Installation Back to “Select a building” NatVent