User:Santwyne/60L Green Building

60L Green Building is an office building located at 60 Leicester Street, Carlton, an inner northern suburb of Melbourne, Australia. It is owned by the Australian Conservation Foundation and is used by many environmental organisations as office space and for hosting events.

became the first purpose-built office building in Australia to achieve a maximum Six Green Star rating, certified by the Green Building Council of Australia. CH2 officially opened in August 2006.

Environmental features
Comparing to a building with a Five Green Star rating, CH2's emissions will be 64% lower. When compared to the existing Council House next door, it is expected to:
 * reduce electricity consumption by 85%
 * reduce gas consumption by 87%
 * produce only 13% of the emissions
 * reduce water mains supply by 72%

Features include new LCD computer monitors, which will consume 77% less energy, and new T5 light fittings which should consume 65% less energy. The building also houses 48 m2 of solar panels, which provide 60% of hot water, as well as a gas-fired cogeneration plant which provides 40% of the building's overall electricity, with reduced carbon emissions.

Of the total construction cost of $51 million, $12 million were invested in energy, water and waste innovation. The time for payback is expected to be less than ten years.

Design
CH2 is meant to be a 'lighthouse project' for new building developments, aiming to influence future design to be more sustainable and efficient. Some objectives when designing the building were to be greenhouse neutral and improve the overall employee wellbeing. Different strategies were used when doing this but all were focused around a sustainability aspect.

Biomimicry was a large component in designing the building. The building's principal design architect, Mick Pearce, incorporated a system previously and successfully used in the Eastgate Centre in Harare. The heating, ventilating, and cooling system (hvac) is designed with strategies taken from a termite mound. In the termite mound, the cool wind is drawn into the base of the mound, via channels and the 'coolth' is stored using wet soil. As the air warms, it flows upwards and out of the mound via vents. This gives the mound the ability to keep a stable temperature. CH2 uses similar strategies with its system by effectively using natural convection, ventilation stacks, thermal mass, phase change material, and water for cooling. Another strategy used taken from nature is the skin system. The façade is composed of an epidermis (outer skin) and dermis (inner skin). The 'dermis' of the building consists of the outside zone to house the stairs, lifts, ducts, balconies, sunscreens and foliage with the inner line defining the extent of the 'fire compartment'. The dermis was designed with lightweight constructing using a steel frame. The epidermis provides the micro-environment including the primary sun and glare control for the building while creating a semi enclosed micro-environment.

Ventilation stacks are implemented on the north and south façades of the building. These stacks are used to channel air. The north stacks receive more sun so they are black to absorb heat, which in turn encourages the warm air from the building to rise up out of the stacks. The south stacks are used to channel down cold air through the vents. These stacks also offer shading for office windows.

The ceilings are made from pre-cast concrete, with a 'wavy' shape, to optimise surface area, which allows for an increase in thermal mass capacity. The thermal mass in the concrete is flushed at night, through a night purge, absorbing 'coolth' form the night air and allowing it to absorb heat from the space during the day. With the 'wavy' design, heated air is collected at ceiling height, and then channelled out of the building and into the ventilation stacks. Radiant cooling is also a strategy used by running chilled water through beams and ceiling panels. Chilled panels cool the rising warm air, which then drops, creating a natural convection current. Phase change material is used to cool the water for the chilled beams and panels. It efficiently helps to keep the water circulating through the beams and panels at a desired temperature. The phase change material is often referred to as the 'battery' of the building because of its purpose of storing the 'coolth'.

Natural day lighting was a difficult task for the CH2 team due to the building's orientation and position in relation to surrounding buildings, and the requirement for a deep open plan office space. The best design techniques for CH2 to allow the most natural light included a synergy between windows size and air ducts, light shelves to reflect light into the office area, vaulted ceilings to allow further light penetration, shading on north, west, and east façades, and finally timber louvres to control light penetration from the afternoon western sun. The light shelves were placed on the north façade which in turn will create a soft indirect light on the roof space. These light shelves are placed externally and made of fabric in a steel frame. The vaulted ceilings allow for more natural light filtering to the deeper parts of the office space. Locating the windows at the highest point of the curve improved this technique. The east facing façade uses a perforated metal system for shading that also acts like a thermal chimney. Heat rises pulling air through the eastern part of the building allowing it to be naturally ventilated. The north facing façade is composed of steel trellises and balconies supporting vertical gardens nine stories high. The foliage protects the building from the sun and also filters sunlight for a reduction of indoor glares. Light shelves are used to provide shading as well as reflect natural light into the building. These light shelves are placed externally and made of fabric in a steel frame. The west facing façade is covered with a system of timber louvres that pivot to optimise the penetration of natural light and views. These louvres also protect the façade from the harsh western sun. The louvres open and close depending on the amount of sun that is hitting the western façade. The louvres are made from untreated recycled timber and are moved by a computer-controlled hydraulic system. The building also uses artificial lighting throughout to provide a sufficient amount of light when natural light is not available. These lights use the low-energy T5 luminaries which achieve a lighting power density of less than 2.5 watts/m² per 100 lux.

Shower towers are used on the southern façade. These towers draw outside air from above street level and cool the air by evaporation to form the shower of water. The cool air is then supplied to the retail spaces and the cool water is used to pre-cool the water coming from the chilled water panels. The towers are made from tubes of lightweight fabric 1.4 meters in diameter. Testing from these towers has shown a temperature reduction of 4 to 13 degrees Celsius from the top of the tower to the bottom of the tower.

The designers also used an innovative concept of design by using the same amount of foliage on the building as would have been present if the site was still in its original natural vegetated state. This is accomplished by using a roof garden, which also serves as a break-out and recreation space for staff. The northern façade also incorporates planter boxes situated east and west of each northern balcony.

Indoor environment quality
A main concern when designing CH2 was the indoor environment quality (IEQ), and many steps were made to optimise this in particular. With an improvement in the overall IEQ designers believed this could lead to fewer sick days of occupants, fewer headaches and better well-being while staff are at work. The City of Melbourne's aim was to create a healthy, comfortable, adaptable and stimulating work environment for the staff. Strategies used to improve the IEQ include a well-designed working environment, fresh air, natural light, greenery, and use of materials that emit low amounts of volatile organic compounds (VOCs). Not only do these strategies improve the work place, but also can save the city money based on productivity gains.

Displacement ventilation was used as the primary ventilation in CH2. The advantages of using a displacement ventilation system include increased cost effectiveness in operation, improved air quality within occupied zone, greater operational efficiency, ability to conceal, quiet, and finally flexibility. The minimum fresh air requirement at CH2 is 22.5 litres/second/person. This is much higher than the Australian Standard of 10 litres/second/person (AS 1668.2) The higher turnover rate was chosen because research has shown that low fresh air requirements can be directly linked to low productivity and sickness, including colds and flu.

Natural light was optimised in the design of CH2 by creating a wavy ceiling, use of light shelves, larger windows at the bottom of building and smaller windows at the top, use of colours to accentuate the natural light, and the concepts that windowed areas were shared by all not owned individuals.

The interior of the building is also decorated with a variety of plant life with aesthetic purposes, as well as research that shows that plants reduce the amount of VOCs in the air. In addition to controlling VOCs with plants, CH2 planners chose materials to keep the indoor pollutants at a minimum. Low-VOC paints, low-VOC carpets, low-VOC adhesives and sealants, and low-emission formaldehyde composite wood products are all used in the interiors of the building.

Green Star Rating
Green Star rates the environmental performance of a building based, in this case, on its design. It is administrated by the Green Building Council of Australia (GBCA). The rating looks at the following aspects of the building process:
 * Building Input
 * Management
 * Indoor Environment Quality (IEQ)
 * Energy
 * Transport
 * Water
 * Materials
 * Land Use & Ecology
 * Emissions
 * Innovation

Each of these aspects are then broken up into smaller categories that cover a wide range of topics.

Green Star is a public method of demonstrating commitment to environmentally responsible building. It provides a standard language to discuss sustainability for buildings.

On 22 March 2005, CH2 building design was awarded a 6 Star rating under Green Star – Office Design v1. The following table presents the points possible, and points awarded for CH2

Awards and recognition
2004 2003
 * Victorian Premier’s Award for Sustainability
 * Leadership in Sustainable Buildings category, Banksia Award for Sustainability
 * Ecologically Sustainable Development (Built) Award, Awards for Planning Excellence, Planning Institute Australia (Victorian Division)
 * Colonial First State Environmental Development Award, Excellence in Property Awards, Australian Property Institute