1. Readers are advised to use information available here as study guide only and use it at your own risk.
2. Please note that changes/ update based on updated information will be made from time to time, readers are advised to check on this page regularly.
3. Analysis was done based on available data at the time of this review being published.
We have organised the rating for each attribute bellow into a scale of 1 to 4 (1 being not so desirable to 4 which is most desirable). Our scoring system is based on data collected from all BTO launches and SERS program since year 2010 which consist of more than 250 developments with more than 200,000 units in total (on average, HDB launch 15,000 to 20,000 units per year).
The best way to reduce heat intake has always been avoiding it in the first place. The understanding of heat intake varies due to geographical location. In Singapore, we try to avoid heat intake from the west sun (afternoon sun) at all cost due to Singapore being located along the equator, which mean closer to the sun than other part of the Earth. Sun radiation carries along UV (ultraviolet) and IR (Infrared) wave which is detrimental to the building enclosure as well as the interior spaces and heat up the building a lot faster than the air-con can cool it down.
The higher the unit, the hotter it will be as hot air rises. On top of that, increase usage of air-con which contribute to hot air being emitted from the condenser unit (outdoor unit) will also move upward. Thus, affecting the higher units as the building goes up higher with almost all units these days using air-con. So, the challenge is about finding a balance between having nice view with higher floor vs increase heat intake due to height increase. Architectural elements introduced on the building façade may or may not help in reducing the heat intake as the design are standardised throughout the whole development regardless of the effectiveness for it. Therefore, detailed analysis needs to be done to ascertain the effectiveness of these elements.
Canberra Vista is located at the edge of Sembawang planning area, North Region under URA Planning area. This development is part of the new Canberra township which have been taking shape since 2013. Canberra Vista will be the 12 sites to be developed within this vicinity since 2013 and the 1st for public housing on the other side of the main road, Canberra Link which is mostly populated by private landed and non-landed housing. Based on our early assessment for a 4-room, you will have 55% chance of getting a hot unit. A hot unit mean the main façade of the unit having 3pm west sun exposure of at least 3 months in a year (note that this assessment is based on units having a standard horizontal shading device of at least 300mm to 600mm). We rate the west sun exposure for this development at 1 out of 4 for 4-room. (Please note that our detail assessment will be based on scientific approach used in the construction industry worldwide and it is only available in our paid analysis package).
At hausanalyst, we have collected wind data released by Singapore Meteorological Service from 2014 to 2017 which was recorded at Changi Airport Station. Based on the data collected, we found a consistency in terms of the frequent direction of prevailing wind as well as the major wind direction which happen almost 1 in 5 during the prevailing season. 3 other prevailing wind directions only happen 1 in 10 during the prevailing season. Knowing which of these wind directions and when does it happen will greatly help when selecting a unit.
Based on recorded prevailing wind data from 2014-2017 which we have analysed, if you were to get a 4-room unit, your chance of getting a prevailing wind will be at 30%. We define the prevailing wind exposure as the wind hitting diagonally onto the surface of the external wall of the unit (usually the main façade). While we welcome wind exposure during a hot day, we may not like it during heavy rain as it will help to intensify the rain hitting directly at the windows and some instances cause seepage due to poor workmanship on the window frame. Having prevailing wind will greatly help with cross ventilation of a unit to induce passive internal air change whereby in stagnant air there may consist of bacteria and virus. Read more about prevailing wind exposure here (https://www.hausanalyst.com/bto-analysis/good-housing-prevailing-wind-exposure). We rate the wind exposure for this development at 2 out of 4 for 4-room.
Overall, we rate this development at 10 out of total 20 for 4-room.
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An architect with 2 bachelor degrees. 15 years of industry related experience in Singapore, China and Malaysia. Designed for more than 10,000 units of completed residential property in Singapore, China and Malaysia including landed and non-landed alike. Designed for residential, healthcare, industrial and transportation oriented development (Finalist at World Architectural Festival 2014, Master planning; Won Singapore Institute of Planners Best Urban Design Project 2013). Completed projects including high yield 1,010 units of Punggol Topaz, Singapore, 2,290 units of landed and high-rise residential development in Xian, China, 4,236 units of high-rise residential development in Shenyang, China, 3,595 units of high-rise residential development in Chengdu, China and many more.