Energy Efficient Air Conditioning - Melbourne, VIC 3000

Air Conditioning & Split Systems - Melbourne, VIC 3000

Welcome to the air conditioning guide for Melbourne, located in postcode 3000. Using the nearest weather station data from MELBOURNE REGIONAL OFFICE at an elevation of 31 metres above sea level, which commenced operations in 1908 and the latest recorded data in 2015, we can measure the temperature fluctuations that will affect the heating and cooling requirements of your home.

Melbourne experiences summers that have reached up to 46.4 degrees C and winters that have been as cold as -2.8 degrees C, showcasing the need for versatile HVAC systems. In January, temperatures often there are on average 7.8 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 63% at 9am and 47% 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, Melbourne experiences wind speeds of up to 10 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 Melbourne

36.036.027.027.018.018.09.09.00.00.0JanuaryJanuaryFebruaryFebruaryMarchMarchAprilAprilMayMayJuneJuneJulyJulyAugustAugustSeptemberSeptemberOctoberOctoberNovemberNovemberDecemberDecemberComfort ZoneComfort Zone
Typical Temperature Range (90% of the time)

Melbourne 3000

50.050.040.040.030.030.020.020.010.010.00.00.0JanuaryJanuaryFebruaryFebruaryMarchMarchAprilAprilMayMayJuneJuneJulyJulyAugustAugustSeptemberSeptemberOctoberOctoberNovemberNovemberDecemberDecemberComfort ZoneComfort Zone
Extremely Hot Days (10% of the time)

Melbourne 3000

Avg Days Over 30°C
Avg Days Over 35°C
8.08.06.06.04.04.02.02.00.00.0# daysJanuaryJanuaryFebruaryFebruaryMarchMarchAprilAprilMayMayJuneJuneJulyJulyAugustAugustSeptemberSeptemberOctoberOctoberNovemberNovemberDecemberDecember
Average Number of Hot Days

Melbourne 3000

9am Relative Humidity
3pm Relative Humidity
808060604040202000%JanuaryJanuaryFebruaryFebruaryMarchMarchAprilAprilMayMayJuneJuneJulyJulyAugustAugustSeptemberSeptemberOctoberOctoberNovemberNovemberDecemberDecemberComfort ZoneComfort Zone
Average Relative Humidity

Melbourne 3000

3 Star Energy Rating
5 Star Energy Rating
7 Star Energy Rating
28.028.021.021.014.014.07.07.00.00.0JanJanFebFebMarMarAprAprMayMayJunJunJulJulAugAugSepSepOctOctNovNovDecDec
Est Daily Split System Cooling Energy Consumption (kW)

Melbourne 3000

Featured Air Conditioning Installers Servicing Melbourne

Storm Electrical Solutions

Storm Electrical Solutions

61B Hansen Street, 3025

Storm electrical solutions.

76 Reviews
Sharpie the Sparkie

Sharpie the Sparkie

Ringwood, 3134

Quality tradesmen for your electrical & air conditioning needs

9 Reviews
Plumbzall Pty Ltd

Plumbzall Pty Ltd

4 Bundoran Ct, 3429

Quality Plumbing Services You Can Trust

79 Reviews
Daytona Electrical

Daytona Electrical

Lilydale, 3140

Quality. Reliability. Excellence.

25 Reviews

Air Conditioning & Solar Production

Daily Avg Sunshine in Melbourne
554433221100JanJanFebFebMarMarAprAprMayMayJunJunJulJulAugAugSepSepOctOctNovNovDecDec
Daily Avg Solar Generation (kWh)
554433221100JanJanFebFebMarMarAprAprMayMayJunJunJulJulAugAugSepSepOctOctNovNovDecDec

* Data from The Bureau of Meteorology (BOM). Closest weather station to Melbourne: Melbourne Regional Office - approx. 1 km

Split System 5 Star
6kW Solar System
16.016.012.012.08.08.04.04.00.00.0Split System 5 StarJanJanFebFebMarMarAprAprMayMayJunJunJulJulAugAugSepSepOctOctNovNovDecDec36.036.027.027.018.018.09.09.00.00.06kW Solar System
Est Daily Split System Cooling Offset By Solar Power

Melbourne 3000

Featured Solar Installers Servicing Melbourne

Jet Solar

Jet Solar

13/5 Enterprise Drive, 3178

Victoria's highest rated solar installer.

336 Reviews
Zing Solar Vic

Zing Solar Vic

2 Main Street, 3030

100% Australian based

37 Reviews
Geelong Solar Energy

Geelong Solar Energy

27 Nobility Street, 3224

Specialist is solar power systems and energy storage

74 Reviews
Solar Run Keysborough

Solar Run Keysborough

35 Pacific Drive, 3173

Australia’s preferred solar company making installation simple.

104 Reviews

Community Air Conditioning Statistics - Melbourne, 3000

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Avg Summer Temperature (3pm)

0°C

Avg Summer Temperature (3pm)

Our calculation for Average Summer Temperature at 3pm in Melbourne uses Bureau of Meteorology data from the nearest weather station (Melbourne Regional Office), which is at an elevation of 31 metres above sea level and started operating in 1908 with the latest data recorded in 2015, which we've aggregated into a historical average temperature for Melbourne’s Summer months.

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Avg Days Over 30°C

0 days/per year

Avg Days Over 30°C

Our calculation for Average Days Over 30°C in Melbourne uses Bureau of Meteorology data from the nearest weather station (Melbourne Regional Office), which is at an elevation of 31 metres above sea level and started operating in 1908 with the latest data recorded in 2015, which we've aggregated into the average for the number of days in the year the temperature for Melbourne will be over 30 degrees Celsius.

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Avg Summer Relative Humidity (3pm)

0%

Avg Summer Relative Humidity (3pm)

Our calculation for Average Summer Relative Humidity at 3pm in Melbourne uses Bureau of Meteorology data from the nearest weather station (Melbourne Regional Office), which is at an elevation of 31 metres above sea level and started operating in 1908 with the latest data recorded in 2015, which we've aggregated into a historical average Relative Humidity for Melbourne’s Summer months in the afternoon.

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Total Number Of Homes

0

Total Number Of Homes

The calculation for the number of homes in 3000 is based on the total number of dwellings recorded in the Australian Bureau of Statistics (ABS) 2021 Census. The ABS ‘Dwelling’ statistics for postcode 3000 include Separate houses, Semi-detached, row or terrace houses, townhouses, flats or apartments, and other dwelling types, which we have combined into a single number called homes.

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Retail Value of Electricity Saved

$0 yr/per home

Retail Value of Electricity Saved

This calculation illustrates a 547.5 average yearly saving worth of retail value electricity that could be achieved for each home in 3000, due to an energy-efficient 7-star air conditioning split system compared to a less efficient 3-star air conditioning split system. This average yearly saving per home includes Bureau of Meteorology climate, humidity and temperature data for Melbourne, assumptions about the homes in this location, and estimates an average electricity rate of 25 cents per kWh throughout this period.

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Avg Electricity Saved Per Home

0 kWh/home

Avg Electricity Saved Per Home

This calculation highlights a 2190kWh yearly average electricity saving that could be achieved for each home in 3000, due to the improved energy efficiency of a 7-star rated air conditioning system when compared to a less efficient 3-star air conditioning split system. The total kilowatts saved by each home on average includes Bureau of Meteorology climate, humidity and temperature data for Melbourne, plus assumptions about the homes in this location.

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Community Electricity Saved

0 kWh/day

Community Electricity Saved

This calculation highlights the combined volume of electricity that would be saved by the community of 3000 each day if all 21750 homes used a 7-star efficient split system when compared to a 3-star efficient system. This valuation includes Bureau of Meteorology climate, humidity and temperature data for Melbourne, plus assumptions about the homes in this location.

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Community Retail Electricity Savings

$0 /day

Community Retail Electricity Savings

This calculation highlights the combined volume of electricity that would be saved by the community of 21750 each day if all Melbourne homes used a 7-star efficient split system when compared to a 3-star efficient system, multiplied by an estimated average electricity rate of 25 cents per kWh. This valuation includes Bureau of Meteorology climate, humidity and temperature data for Melbourne, plus assumptions about the homes in this location.

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Community Retail Electricity Savings

$0 /year

Community Retail Electricity Savings

This calculation highlights the combined volume of electricity that would be saved by the community of 3000 each year if all 21750 homes used a 7-star efficient split system when compared to a 3-star efficient system, multiplied by an estimated average electricity rate of 25 cents per kWh. This valuation includes Bureau of Meteorology climate, humidity and temperature data for Melbourne, plus assumptions about the homes in this location.

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Yearly CO2 Reduction

0 tonnes

Yearly CO2 Reduction

This calculation is based on yearly ‘Community Retail Electricity Savings’ that would be created by the community of 3000 each year if all 21750 homes used a 7-star efficient split system when compared to a 3-star efficient system. This electricity saving is then multiplied by the amount of CO2 generated per tonne of coal-fired power in VIC, which is used to highlight the amount of carbon pollution that is instead saved by postcode 3000 by switching to a more energy-efficient air conditioning split system for cooling.

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Carbon Sequestration Equivalent

0 trees/yr

Carbon Sequestration Equivalent

This calculation is based on yearly ‘Community Retail Electricity Savings’ that would be created by the community of 3000 each year if all 21750 homes used a 7-star efficient split system when compared to a 3-star efficient system. This electricity saving is then multiplied by the amount of CO2 generated per tonne of coal-fired power in VIC, then converted to the equivalent number of mature trees capturing and sequestering carbon dioxide pollution equal to the amount of CO2 saved (14 trees per tonne of CO2). So this number gives us a different way of understanding the environmental benefits of higher energy star split system air conditioning because of improved energy efficiency.

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Car Emissions Equivalent

0 km/yr

Car Emissions Equivalent

This calculation is based on yearly ‘Community Retail Electricity Savings’ that would be created by the community of 3000 each year if all 21750 homes used a 7-star efficient split system when compared to a 3-star efficient system. This electricity saving is then multiplied by the amount of CO2 generated per tonne of coal-fired power in VIC, then converted to the equivalent number of kilometres driven worth of car emissions driven by an average car equal to the amount of CO2 saved (120g of CO2 per km driven). So this number gives us a different way of understanding the environmental benefits of higher energy star split system air conditioning because of improved energy efficiency.

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Demographics

Melbourne and the postcode of 3000 has a total 21750 occupied dwellings. Of these dwellings in Melbourne 7 are houses, 48 are semi-detached or townhouses, and 21559 are flats or apartments. We see that homes of 4 or more bedrooms in size are 0% of all dwellings, while 3 bedroom homes are 7%, and 2 or fewer bedroom dwellings are 91%. 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 1.7 number of people per household and with 21% of properties mortgaged or owned outright in 3000, investing in energy-efficient air conditioning will make a significant difference to energy savings here.

* Based on Australian Bureau of Statistics 2021 Data
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About Melbourne

Melbourne VIC 3000 experiences a temperate oceanic climate, characterized by mild to cool winters and warm to hot summers. The average annual temperature in Melbourne is around 14.6°C. The hottest month in Melbourne is typically January, with an average maximum temperature of 25.8°C. The coldest month is usually July, with an average maximum temperature of 13.5°C.

Given the warm to hot summers in Melbourne, cooling requirements are essential for comfort. One popular cooling option is split system air-conditioning. Split systems provide efficient and effective cooling, allowing for individual temperature control in different rooms. They are also energy-efficient, making them a cost-effective choice for homeowners. Additionally, split systems can be powered by solar energy, reducing reliance on traditional electricity sources and lowering carbon emissions.

For all your cooling needs in Melbourne, there are several local aircon service and installation businesses available. These professionals specialize in HVAC systems, including split system air-conditioning. They offer expert advice, installation, maintenance, and repairs, ensuring optimal performance and longevity of your cooling system. Whether you need a new split system aircon or require servicing for an existing unit, these local businesses are dedicated to providing top-notch service and customer satisfaction.

Nearby Suburbs

Melbourne

See Also

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