Hot Water Systems in Dysart
The 7030 postcode, covering Dysart, Apsley, Arthurs Lake, Bagdad, Bagdad North, Bothwell, Bridgewater, Brighton, Broadmarsh, Cramps Bay, Dromedary, Elderslie, Flintstone, Gagebrook, Granton, Herdsmans Cove, Hermitage, Interlaken, Jericho, Kempton, Lake Sorell, Liawenee, Lower Marshes, Mangalore, Melton Mowbray, Miena, Millers Bluff, Morass Bay, Pelham, Pontville, Shannon, Steppes, Tods Corner, Waddamana and Wilburville and surrounding areas, is home to around 8,366 households. With many households already generating their own clean solar power, many are now looking at how they can make their entire home energy system more efficient, with hot water heating often the logical next step.
With hot water roughly accounting for a quarter of the average home's energy use, switching to an energy-efficient hot water system is one of the biggest opportunities for savings. Across Dysart and the 7030 area, 135 homeowners have already switched from older electric storage and gas hot water systems to solar hot water or air-source heat pump systems that draw on clean, renewable power while also claiming the hot water rebates to reduce their hot water heater system cost. These highly-efficient systems not only help cut energy bills but also reduce carbon emissions and improve overall energy independence.
With Dysart's climate delivering an average of 3.9 kWh/m² per day, conditions are ideal for hot water systems and hybrid heat pump systems that harness both sunlight and ambient air temperature to heat water efficiently all year round. When paired with existing rooftop solar power or solar batteries, the result is hot water that costs far less to run and is powered by clean, self-generated energy.
Hot Water Ranking
Postcode 7030
17th
State Wide
1260th
Australia Wide
Hot Water Installation Dysart
Estimated daily energy to heat household water, comparing a resistive electric element with a high-efficiency heat pump. Demand shifts month-to-month using local climate patterns.
Energy Efficient Hot Water & Solar Power Dysart
* Data from the Bureau of Meteorology. Closest station: N/A.
Solar Powered Hot WaterDysart
Illustrates how a typical 6.6 kW rooftop solar system can offset the daytime energy demand of a COP 5 heat pump hot water unit.
Want Solar Finance Options?
Compare lenders and get tailored loan offers.
Heat Pump Hot Water Systems for Dysart
Compare heat pump hot water systems suitable for Dysart's climate. These energy-efficient systems are designed to work in local temperature conditions and can significantly reduce your hot water energy costs.
Community Hot Water Statistics - Dysart, 7030
Hot Water Demographics - Dysart
Based on the Australian Bureau of Statistics 2021 Census (ABS), Dysart has around 8,366 private dwellings, home to approximately 18,513 people. With an average household size of 2.6 people, and around 50 litres of hot water used per person each day in Australia, Dysart households use approximately 130 litres of hot water daily, equating to a massive 1.1 million litres of hot water used across the suburb every single day.
Other census insights reinforce Dysart's suitability for energy-saving improvements like energy-efficient or solar-powered hot water. The Dysart community is home to 1,429 couple families with children and 927 one-parent families, meaning a large proportion of households face substantial hot water demand. With 2,763 homes owned with a mortgage and 1,887 owned outright, many residents also have the homeownership and growing equity that make switching to efficient hot water systems a practical way to lower expenses.
Dysart is converting hot water demand to efficient systems faster than many peers, with 1.6% of dwellings already upgraded.
Hot water systems in Dysart
In Dysart, more homeowners are rethinking their old gas and electric hot water system and moving to efficient options like a heat pump hot water system, solar hot water system and modern electric hot water system. With an average household size of around 2.6 people and most homes being separate houses, hot water demand in the 7030 area is steady year‑round, and energy bills can really add up. Many families are balancing a median household income of about $1,295 a week with mortgages or rent, so switching to an energy efficient hot water system is becoming a smart way to keep costs under control.
Dysart’s solar exposure is better than many people expect. The local weather station records mean daily solar exposure of about 14.1 MJ/m² annually – roughly 3.9 kWh/m² per day – which is strong enough to support both a solar hot water heating system and a quality heat pump hot water system. That sunlight, combined with cooler Tasmanian air, is ideal for modern heat pumps that draw energy from the air, and for rooftop collectors feeding a solar hot water tank replacement. For many households, upgrading from an older gas or off‑peak electric unit to an efficient system can deliver substantial Annual Hot Water Energy Savings and noticeably lower power bills.
Across the 7030 postcode, there are over 7,000 occupied dwellings, with a big share owned with a mortgage plus more than 2,200 rented. That mix means people are looking for reliable hot water installation and hot water repair options that suit both long‑term owners and landlords who just want something that works and keeps running costs down. Brands like Rheem heat pump hot water, Rheem solar hot water, Rinnai solar hot water and Sanden heat pump systems are all popular choices for those chasing the best hot water system Australia can offer in real‑world Tasmanian conditions.
When you compare heat pump vs solar hot water or solar hot water vs electric hot water, the right choice usually comes down to roof space, budget, and whether you already have solar panels. A well‑sized heat pump hot water installation can be the most efficient hot water system for shaded blocks or smaller roofs, while a solar hot water installation paired with PV can give excellent long‑term savings. Modern electric hot water installation, especially when timed to run on solar, can also perform well and may qualify for an electric hot water system rebate, making it attractive for straightforward changeovers.
Typical annual bill savings in Dysart for common upgrade paths can look like:
• Old electric to heat pump hot water system: $350–$700 per year • Gas to heat pump: $300–$600 per year • Gas to solar hot water system: $250–$550 per year • Old electric to modern electric hot water system with rooftop solar: $200–$450 per year
These ranges will vary with household size, tariffs and how much hot water you use, but they give a good feel for what is possible when you move to an energy efficient hot water system.
Recent installs in Dysart show the shift is already under way. There have been 135 efficient hot water installations recorded in the postcode, combining both heat pump and solar hot water systems. Uptake climbed sharply around 2009–2012, with peak years like 2009 and 2011 seeing close to 20 installs each. While annual numbers have eased since then, there are still new systems going in every year, reflecting growing interest in electrification, lower running costs and moving away from gas hot water. Local households are clearly starting to see heat pump hot water price and solar hot water price as long‑term investments rather than just an upfront hot water system cost.
Hot Water Rebates, Tariffs & Savings
For Dysart homeowners, the financial side of a hot water upgrade is just as important as the technology. Federal incentives such as Small‑scale Technology Certificates (STCs) apply to eligible heat pump and solar hot water systems, effectively acting like a built‑in discount at the point of sale. On top of that, Tasmanian hot water rebate TAS programs, including state‑based heat pump hot water rebate offers and sometimes an electric hot water system rebate, can further reduce the heat pump hot water price or solar hot water price / cost. In practice, these rebates can trim the installed hot water system price / cost by a substantial percentage, cutting payback periods to just a few years, especially if you already have solar and use timers or solar‑diversion to run your system when the sun is shining. For many Dysart homes, that means hundreds of dollars a year off bills while enjoying reliable, low‑emission hot water.
If you are weighing up electric hot water vs gas hot water, or trying to decide between the best heat pump hot water system and a chromagen solar hot water or similar setup, it helps to get local advice. Dysart’s mix of family homes and rentals, solid solar resources and growing interest in sustainability means there is strong potential to cut emissions and future‑proof homes with the right hot water TAS solution.
If your current unit is old, noisy or struggling, now is a good time to see if your Dysart home is ready for a hot water upgrade. Whether you are switching from gas to an all‑electric home, comparing heat pump vs solar hot water, or just need dependable hot water repair and solar hot water repair, it pays to work with experienced hot water installers who specialise in efficient systems. With local energy‑efficiency potential, generous hot water rebate TAS options and proven brands like Rheem, Rinnai and Sanden on offer, an upgraded hot water system can lower bills, cut emissions and make your home more comfortable for years to come. Connect with trusted local experts for personalised advice and find the best hot water system Australia can offer for your Dysart property.