SUSTAINABLE HOUSE DESIGN
CIVE005
Design Brief
The proposed single dwelling development is located within the Monash City Council Subdivision – SD27375 plot No. 0005. It is designed as per the planning provisions stipulated in the Monash City Council Guidelines. This project incorporates passive design strategies to try and save on energy costs as well as have the lowest possible carbon footprint to the environment.
This plot is located approximately 200m from Nolan Gardens along Rod Street. The plot is well nested between two adjacent plots of the same size with an access road to the West and a boundary wall to the East. It has a 4% slope towards the East and an easement of 3m along the back face for easy drainage. The plot is oriented in the East-West directions providing ample room to experiment with modern passive design ideas.
The house sits on a 360m2 plot with a frontal width of 18m and a side length of 35m, making it a perfect rectangle. The house itself has a total livable floor area of 280m2, with 170m2 going to the ground floor and 110m2 going to the first floor. The proposed residential house unit will have a minimalist approach to its Design, with an exterior finished by stucco white render and a light grey slate roof supported by timber rafters.
Nolan Garden is 200m south from the plot, offering inhabitants somewhere to have quality time and appreciate nature. It is distant to LL Park, making it suitable for those who prefer a quiet and serene environment. In terms of accessibility, the plot can be easily accessed from Rod Street with the driveway access located to the left-hand corner of the plot (looking from the access road). Service connections (gas, water, electricity, communication) are located at the right-hand corner of the plot (looking from the access road).
Passive Design
Passive designs are building designs that maximize energy from climate and other natural elements to provide a comfortable living space while minimizing dependency on mechanical means for lighting, heating, and cooling. This, in turn, saves the owner energy costs that would have been used to provide a comfortable living space.
Climate
Our proposed building project is located in the suburbs of Melbourne in Monash; this area is in the ‘Mild temperature’ climate zone according to the Australian building codes Board (BCA). It experiences four seasons as described below;
Summer, which is hot with an average high daily temperature of above 85o C, experienced from late November to early March.
Winter, which is cold and windy with an average daily temperature below 65o C, is experienced from mid-May to late August.
Spring and autumn; provide a comfortable temperature, and it’s experienced in the other months.
Wind
Wind direction varies in Monash, with winds from the North being experienced during the months of May to June, winds from the West being experienced from June to September, and winds from the South being experienced from September to May.
Passive Design Principles Applied
Orientation
Our plot is oriented in the East-West direction; this has it possible to place our living spaces towards the North and our utility spaces towards the South with most rooms facing the equator. This allows our living spaces to take full advantage of the energy provided by the low lying sun during winter enabling the sun’s rays to infiltrate deeper in the living spaces providing adequate heat and light.
Another advantage of orienting the building in the building in the East-West directions is to allow the South winds experienced from the month of September to May to cross through and cool the building since extreme temperatures are experienced from November to March. However, some deciduous trees will be required to reduce the intensity of the wind.
Building Shape
For the building shape, we took a more rectangular approach to our Design. This allows for the better placing of windows in livable spaces to allow for maximum effect of the sun’s lighting. Corners were also minimized in our Design to create longer straits; this is because corners have a tendency to cast a shadow, preventing light from reaching the desired areas.
Choice of materials
Careful considerations were made on the materials to be used in the building project. For the exterior, a white render was used for the longer parts of the wall in conjunction with light grey roof shingles. The purpose of these bright materials is to create a reflective surface to reduce the amount of heat being absorbed by the building during summer.
For the windows, the building is designed with double glazing windows, which are manufactured with an inert gas in between two glass panes to help improve thermal resistance. This enables the house to minimize heat loss during winter and heat gain during summer, thus helping the building to regulate its room temperature. In addition, Double glazed glass also acts as a good sound barrier; this is ideal for inhabitants who would like to reduce outside noise from getting in.
Thermal Mass
The floors were designed to use precast concrete blocks, the reason for this is concrete provides a good thermal mass, absorbing a substantial amount of heat energy from the sun through conductions at daytime and releasing it back to the building during the night especially in winter when the sun shines low, the concrete mass also help in cooling the house during winter as when in contact with the ground, it helps dissipate heat from the building, these create a comfortable environment for inhabitants.
Landscaping
The site plan was prepared in such a way as to reduce concrete paving and to have more green areas. The reasoning behind this was so as to have less heat observant surfaces that will increase the heat around the house and cause the heat island effect. The solution is to have more natural surfaces like grass that will not absorb a lot of heat.
The site plan also involves the planting of trees around the building; this helps in three ways; firstly they will provide as shading effect to the building reducing direct sunlight; secondly they will act as a sound barrier for the site especially if planted around the site, and lastly, they will control wind intensity towards the site by reducing the speed of strong winds and allowing light breezes to be utilized to cool the house.
Shading
Apart from the use of trees to provide shading effect, the residential house is designed with alternative architectural shading devices like louvers on the front left side windows, overhangs at the main entrances, recessed windows around the building, prolonged walls to shade livings spaces and an 800mm roof eave to shade the upper floor windows and a pergola on the east side balcony for shading user who wants to take advantage of the open space. Window blinds will also be installed to add extra protection against glare.
Making Openings Airtight
Another method used in the project to prevent heat loss in winter is by sealing around the edges of openings; studies show that air leakage account for 15-25% of all heat lost in a domestic dwelling is through gaps in openings like windows and doors. This happens because the gaps let in cold air, thus resulting in more heat being required to warm the house.
Breezeway Design
Most windows in residence have been strategically positioned in the North-South direction. This is because in the Monash during the hot summer months, winds blow from the South. This will allows inhabitants to open their windows in the summertime and let in cool air through the house.
Insulation
This project is designed with reflective insulations at the roof level to prevent heat loss by radiations, and mineral wool in the wall cavity to prevent heat loss by conduction.
Achieving Planning Regulations
Monash City Council requires of us to achieve council building guidelines by implementing them in our Design to get approved. These regulations are listed in the table below, together with what we have been able to achieve.
| No. | Regulation | Design Implementation |
| A2 | Integration with the street objective · Dwelling should be oriented to the front existing and proposed streets. · High fencing in Front of dwellings should be avoided if practicable. · Dwellings should be designed to promote the observation of abutting streets and any abutting public open spaces. | · For this project, we provided one entrance facing Rod Street. · The front-facing wall is 1.5m high and has a light, airy architectural Design.
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| A3 | Street Setback · The minimum building setback from the street should be 6m. · Set back is measured from the front wall to the street title boundary. | · Set back provided from the street is 6.7 m. |
| A4 | Building Height · Upper-level area to be </= to 65% of ground area, excluding the garage and outdoor spaces. · Maximum building height to be < 9m. | · Building floor space on the ground floor is 170m2 while that on the first floor is 109m2; this gives us 64%. · The maximum height of the building is 8.95m. |
| A5 | Site coverage · Site coverage shall not exceed 60% of the plot area. | · The plot has a total area of 630m2 while our house has a footprint of 199m2 on the site; this is 32% of the plot area. |
| A6 | Permeability · Permeable area of the land shall be 20% or more of the landscaped area. | · The Green area covers approximately 267 m2, which is 42% of the total plot area. |
| A7 | Energy Efficiency Buildings should be; · They are oriented to make appropriate use of solar energy. · Sited and designed to ensure that the energy efficiency of existing dwellings on adjoining plots is not unreasonably reduced. |
· Major living spaces in the building are oriented towards the North, maximizing the sun’s light and heat. The project is also rectangular to enable longer walls for window placement. |
| A8 | Significant Trees · Development should provide for the planting of trees. · Development should provide for the replacement of any significant trees that have been removed in the 12 months prior to the application being made. | · Four deciduous trees will be planted around the site to grow to heights exciding roof canopy. Tree species include two oak trees and two maple trees. |
| A9 | Parking Provision · Provide for adequate parking | · The parking space measures 7.4×7.4 m, which is adequate for two vehicles. |
| A10 | Side and Rear setback · Set back from the boundaries 1m+0.3m (for every meter height over 3.6m up to 6.9m) + 1m (for every meter height over 6.9m). · The maximum height is 13.6m. | · The building height is 8.95m, an adequate setback of 4m is provided to the furthest wall on the Northern side while the only 1m is provided on the Southern side. The Front and back have a setback of >6m. |
| A11 | Wall on boundaries · Walls within 200mm of side/rear boundary of for a length of more than 10m+ 25%of the remaining length of the boundary of an adjoining plot. · The height of the wall within 200mm of side/rear boundary should not exceed an average of 3.2m with no part higher than 3.6m. · Wall should be set back further than the façade of the building. | · No wall is within the 200mm side/rear boundary of the plot.
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| A12 | North –facing Windows · If a North-facing habitable room window of an existing dwelling is within 3m of a boundary on an abutting plot, a building should be setback 1m from the boundary, plus 0.6m for every meter height over 3.6m up to 6.9m, plus 1m for every meter of height over 6.9m. (A North-facing window is a window with its axis perpendicular to its surface oriented north 200 West to North 300 East. | · North facings windows are 4m away from the boundary wall. The setback is adequate. |
| A14 | Overshadowing open space | · The area is yet to be developed, thus no information about any existing dwelling around the area. |
| A15 | Overlooking | |
| A16 | Daylight to new windows | |
| A17 | Private open space | |
| A18 | Solar Access | |
| A19 | Design Detail | |
| A20 | Front Fences · The Design of front fences should complement the Design of the dwelling and any other front fences on adjoining properties. | · The front fences design match with the overall aesthetics of the building. No neighboring properties have been developed. |