Air Conditioning & Split Systems - Taylors Hill, VIC 3037
Welcome to the air conditioning guide for Taylors Hill, located in postcode 3037. Using the nearest weather station data from MELBOURNE AIRPORT at an elevation of 113 metres above sea level, which commenced operations in 1970 and the latest recorded data in 2023, we can measure the temperature fluctuations that will affect the heating and cooling requirements of your home.
Taylors Hill experiences summers that have reached up to 46.8 degrees C and winters that have been as cold as -2.5 degrees C, showcasing the need for versatile HVAC systems. In January, temperatures often there are on average 8.8 days over 30 degrees C, while July sees an average of 3 days less than 2 degrees C. These fluctuations underscore the importance of a reliable air conditioning service that can handle both extremes.
In the hotter months, we notice an average humidity level around 65% at 9am and 44% at 3pm, which can significantly impact home comfort on hot days. So a well-rounded Aircon system won't just keep your home cool, it will also help manage these humidity levels. Additionally, Taylors Hill experiences wind speeds of up to 18.5 km/h, making a smart HVAC system, Split System Air Conditioner, Evaporative Cooler, or Ducted Air Conditioning that can adjust to external factors an excellent investment.
Temperature & Weather in Taylors Hill
Featured Air Conditioning Installers Servicing Taylors Hill
Air Conditioning & Solar Production
* Data from The Bureau of Meteorology (BOM). Closest weather station to Taylors Hill: Melbourne Airport - approx. 2.2 km
Featured Solar Installers Servicing Taylors Hill
Solar Run Keysborough
35 Pacific Drive, 3173Australia’s preferred solar company making installation simple.
Community Air Conditioning Statistics - Taylors Hill, 3037
Demographics
Taylors Hill and the postcode of 3037 has a total 15793 occupied dwellings. Of these dwellings in Taylors Hill 12656 are houses, 2841 are semi-detached or townhouses, and 298 are flats or apartments. We see that homes of 4 or more bedrooms in size are 48% of all dwellings, while 3 bedroom homes are 44%, and 2 or fewer bedroom dwellings are 6%. According to the Australian Bureau of Statistics 1% of census results did not specify the number of bedrooms
Typically we see that the bigger the home, then the more it costs to heat and cool, and with 3.1 number of people per household and with 79% of properties mortgaged or owned outright in 3037, investing in energy-efficient air conditioning will make a significant difference to energy savings here.
* Based on Australian Bureau of Statistics 2021 DataAbout Taylors Hill
Taylors Hill, located in VIC 3037, experiences a temperate climate with mild summers and cool winters. The average annual temperature in Taylors Hill is around 15 degrees Celsius. The hottest months are typically January and February, with average maximum temperatures reaching around 26 degrees Celsius. The coolest months are June and July, with average maximum temperatures of around 14 degrees Celsius.
Given the moderate climate in Taylors Hill, cooling requirements are essential during the summer months. Split system air-conditioning units are an ideal solution for cooling homes in this area. Split systems provide efficient cooling and can be easily installed in individual rooms or multiple zones, allowing for personalized temperature control. Additionally, split systems offer the advantage of being able to provide both heating and cooling, making them a versatile choice for year-round comfort.
When it comes to powering split system air-conditioning units, considering solar power can be a sustainable and cost-effective option. By harnessing the abundant sunlight in Taylors Hill, homeowners can reduce their reliance on traditional electricity sources and lower their energy bills. Local aircon service and installation businesses in Taylors Hill can provide expert advice on the best split system units for individual needs and can also assist with solar power integration, ensuring optimal performance and energy efficiency.