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Best Practices in Energy Efficiency and Renewable Energy in Commercial Buildings. EGNRET 28 January 2007. Commercial Building Sector in Australia. Produces 9 % of Australia's greenhouse gas emissions, and growing rapidly 90% of the sector designed prior to introduction of rating systems
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Best Practices in Energy Efficiency and Renewable Energy in Commercial Buildings EGNRET 28 January 2007
Commercial Building Sector in Australia • Produces 9 % of Australia's greenhouse gas emissions, and growing rapidly • 90% of the sector designed prior to introduction of rating systems • Wide variation in energy performance and use in existing buildings • Two-thirds of energy is used for heating, ventilation and cooling of buildings, with lighting accounting for a further 18% • Current energy use: • T • The biofuels industry faces considerable market barriers including low consumer confidence and high commercial risk; and • On current policy settings the 350 ML target would not be met
Potential for large energy savings through • Installing more efficient lighting systems (fixtures, lamps, ballasts, improved controls can save more than 50% of lighting energy use • Replacing HVAC equipment with more efficient units and improving the efficiency of existing can reduce overall electricity consumption by 14-18% • Testing and sealing air distribution ducts can save 9-15% of total energy consumption • Energy-efficient office equipment can reduce total electricity consumption by 15-20%
Accredited Green BuildingsPerformance Standards/Rating Schemes Building Code of Australia • Government-mandated minimum performance requirements for • wall, floor and roof insulation • glazing • air-conditioning • lighting • building sealing • ventilation • hot water supply
Australian Building Greenhouse Rating Scheme • Required by some major cities and state governments • Provides accredited assessments of greenhouse intensity by awarding a star rating on scale of 1 to 5 • the higher the rating the more energy efficient, with a 3-star rating current market practice • Number of 5 star buildings increased from 8 to 25 in 2005 • 4.5 star buildings from 4 to 13
Green Building Council of Australia • A range of Green Star environmental rating schemes evaluating environmental factors, including • water usage • indoor environmental quality • materials use and siting • energy and greenhouse gas emissions • Top rating is 6 green stars
What this means • All these buildings incorporate a variety of technologies, including • ecologically sustainable design (ESD) • solar photovoltaics integrated into the fabric of the building • solar water heaters or heat pump units • daylighting technologies • external climatic landscaping
Sustainability as a factor in valuation • To date, the implementation of energy efficiency practices and technologies has not been a significant factor in valuation models used by most owners, investors or valuers • However, the Property Council of Australia, the major commercial building owners and managers association, is introducing environmental factors into its rating scheme • this is used to set rental rates and property values
Some examples City of Melbourne's Council House 2 (CH2) • 100% fresh air through the building • Extensive daylight to all floors • Heat removal through thermal mass, assisted by chilled beams and ceiling units • Waste water harvesting, purification and storage • Internal air purging assisted by roof turbines • Shower towers to cool water and purify air that is fed to ground floor retail tenancies for cooling systems • Green Building Council of Australia 6 green star rating
Szencorp Building, 40 Albert Road, Melbourne • Desiccant technology to dry and cool the office space simultaneously • Ceramic fuel cell provides heat and electricity • Rooftop weather station provides wind speed and direction, rainfall, atmospheric pressure and temperature to building management system • Gas-boosted solar water heater and solar modules on the roof • Overall, a 70% reduction in energy use; 82% reduction in piped water use,;72% reduction in sewer discharge; and 30% self-generated energy • First Australian building refurbishment to be awarded a 6 Star Green Star rating and a 5 Star Australian Building Greenhouse whole building rating
Lumen Christi Primary School • Reverse brick veneer, with thermal mass on inside of building • Solar eave on sun-facing side, with 1.9 kWp grid interactive photovoltaic system, two-panel solar hot water system, four-collector solar air handling system mounted on the eave • Subsurface water storage system, with filtered rainwater utilised for toilets and watering gardens and pipes installed for air cooling • Slab-edge insulation; foil and bulk roof insulation • Heat transfer from older attached building to new structure
Australian National University Hall of Residence Combined Heat and Power Solar Collectors (CHAPS) • Large concentrating solar system to provide electricity and hot water to new student residence • Hot water used to power a hydronic heating system • Estimated contribution between one-third to two-thirds of annual hot water consumption • PV array to convert 15% of sunlight into electricity delivered to the building and the grid through a 40kW grid-connected inverter • Estimated contribution 60% of annual electricity consumption • Being developed by Centre for Sustainable Energy Systems with RHEEM Australia, with funding from Australian Greenhouse Office
Thank you Information provided by Australian Business Council for Sustainable Energy www.bcse.org.au