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• Assignment• Current Status• Handbook• Change proposals
– Technical– Installation– Behavioural– Research Project• Legal aspects
Contents
Historical status
Installation status
• Centrally controlled system• Weather-feedback controlled• Clockprogram• 2x 600-700kW HR-boilers• 25kg cooling machine• Conditioned ventilation system
Technical changes
• Draught preventing screen
- To counteract the high door
- Reduces draught at reception
- Can save up to:
Case Year round gas usage due to draught
gas savings due to draught block
CO2 emissions avoided in one year
CO2 emissions avoided in 15 years
Cost savings every year
Cost savings in 15 years
Best case 115,12m3 46m3 81,88kg 1,2ton €24,13 €361,94
Worst case 230,24m3 92m3 163,76kg 2,4ton €48,20 €723,12
•Glass covering in patio’s
- To reduce convection losses- Can save around:
Case Year round gas usage due to convection through facade
gas savings due to patio covering
CO2 emissions avoided in one year
CO2 emissions avoided in 15 years
Cost savings every year
Cost savings in 15 years
50% reduction 2110m3 1055m3 1888 28ton €552,8 €8292
• Courtyard covering
- Cover the inner courtyard with glazed roofs reduce energy use
- used often for historic buildings preserves historic character
- Huge energy savings
- Can save up to:
Case Year round gas usage through courtyard facing facades
gas savings due to courtyard covering
CO2 emissions avoided in one year
CO2 emissions avoided in 20 years
Cost savings every year
Cost savings in 20 years
50% reduction 15134m3 11625m3 20693kg 413,9 tons €6092 €121.800
• Secondary Glazing
- Must be reversible in order to protect the significance of the building
- Need a sufficient gap (at least 200 mm) between the two sheet of glass
- If not possible to have a sufficient gap, one should consider double glazing (see next slide)
- Some systems can be removed easily in summer in order to take advantages of passive solar gain
• Double glazing - Usually too tick to fit into existing timber window frame
- But now new products that are thinner but MORE expensive
- Need a cost-efficient analysis
• Film inside the window
- Easy step
- Less efficient than secondary and double glazing
- Different kind of films depending on the orientation of the windows
- Use it when secondary and double glazing not possible
GG90-92: Secondary / Double glazing / Film
Installation changes
• Solar panels
- Usually used for hot water
- BUT technically can be used for heating the building Need bigger roof area
- Can be installed on the extra building? in the big parking of GG 90-62?
• Solar photovoltaic
- Cost much more than solar panels
- Produce about half as much energy as solar panels
- But this is electrical energy
- Can be installed on extra building? In the big parking of GG 90-92?
Electricity decision tree
• Insulation improvements on the floor
-Improvement on the fabric of the building -> demand of energy lowers
-Generally cost-effective
-Protecting air circulation & natural materials
• CHP units
-Cogeneration or combined heat and power
-Creating energy, by-product heat
-Energy & heat need to be levelled
-Units: efficient -> lower energy & carbon emissions
• Infrared light switches
- in areas that are not used frequently : bathrooms, stairways, conference rooms and janitor storage/closets.
- One specific type of passive infrared switches (WSP250): • a built-in sensor holds the lights off when natural light
levels are above the preset level• Result (according to the producer of WSP250): 60%
energy savings
• Recycled paper for printers
- fixed paper provider of the UM: Océ Business Services- propose the paper provider the idea of a pilot project:
• Introducing one printer in each faculty which uses exclusively recycled paper
• If this pilot project is successful, the university could start further negotiations about having all printers and copy machines print on recycled paper.
• Water taps– Faucet aerators: mix air into the water stream
without affecting the water pressure– not expensive, easy to install, can use up to 50% less
water, does not sacrifice comfort – 30 old taps in GG 90-92
• Green Roof– partially or completely covered with vegetation or soil
cut heating cost, reduce water run-off, increases the roofs life span
– at additional building/ 72 “Oostgevel buitenberging” ?
Behavioural aspects
• Online questionnaire– climate conditions at GG90-92– energy consumption-related behaviour– attitudes on saving energyonly 22 responses
• Behaviour change: difficult due to trade-offs in time, cost, comfort
• Education programs• Inform employees about changes• Social marketing strategies
– paper note, (informative) poster• Feedback technologies
– real time feedback – the Serious Game (Green My Place)
• Moving an organization towards sustainability is an on-going process & takes time!
“Be bright, turn out the light! WE Save Energy”
• Mistakes that should be avoided
1. No sense of urgency2. No Powerful Guiding coalition3. Lacking a vision4. Not communicating the vision5. Not removing obstacles to the vision6. Not creating short term wins7. Declare victory too soon8. Not anchoring changes in the corporate culture
Research project
• Look at influence of infrared heating system on concentration/learning performance
• Mutual benefit
Legal aspects
• When do you need an environmental permit?
- Depend what kind of changes you want to do (see website)
- NO for regular (low) maintenance and renovations to non-monumental parts (since 1 January 2012)
• What is the procedure when you need an environmental permit?
- You can apply online
- Extensive procedure = when you need to demolish partially or completely something
- Regular procedure = Rest
• Costs- Depends on the construction costs
- Construction costs = 50.000 or less 17 for each 500 but no less than 131
- Construction costs = between 50.000 and 250.000 1.704 + 16,21 for each 500 above 50.000
- Construction costs = between 250.000 and 500.000 8.185 + 15, 50 for each 500 above 50.000
Ect… (See website)
Thank you for your attention