Credit: AI-generated image (disclaimer)

Earlier this month, regulators flagged power price rises in Queensland, New South Wales, Victoria and South Australia. Like many people, you're probably wondering how you can minimize the financial pain.

Getting rid of gas and electrifying everything in your home can save you money. Modeling by not-for-profit organization Renew showed annual bills last year for a seven-star all-electric home with were between 69% (Western Sydney) and 83% (Hobart) cheaper than bills for a three-star home with gas appliances and no solar.

There are other reasons to kick the gas habit, too. As renewables form an ever-growing part of Australia's energy mix, electrifying the home increasingly helps tackle climate change. What's more, there are sound health reasons to get rid of gas appliances.

But where do you start? And how do you get the best bang for your buck? Here, I offer a few tips.

A quick guide to home energy use

Australian home energy use can be separated into a few categories:

  • space heating and cooling
  • water heating
  • cooking
  • vehicles
  • other appliances (many of which are largely already electric).

Of the appliances that typically depend on gas, the largest component (37%) is space heating, followed by (24%) and cooking (6%).

This varies between states. Victoria, for example, is particularly dependent on gas.

But the breakdown above gives some insight into the largest contributors to in the average Australian home—particularly in the cooler southern regions.

While both gas and are rising, as they are now in most states, all-electric homes can expect lower overall increases. Analysis by Renew has shown ditching the old gas heater in favor of a split system/reverse cycle air-conditioner (without ) can lead to average savings of A$546 each year in Canberra, $440 in Adelaide, $409 in Melbourne and $256 in Perth.

Heating a space with a reverse-cycle air conditioner is about four times more efficient than using natural gas. And when the electricity is generated by renewables, it can be done with zero greenhouse gas emissions.

And what about heating water? Using the existing electricity grid, the cost of using an electric heat pump is around half that of using a natural gas water heater.

The costs fall even lower if a household shifts to solar panels subsidized or financed by government, backed by a home battery providing the energy. In this case, heating costs are around a third of using gas.

So what's the payback?

Buying new appliances costs money. So it's important to examine the "payback" period—in other words, the length of time it takes for energy bill savings to equal the cost of the initial investment in a new appliance.

The payback period can vary depending on:

  • cost and quality of the appliance
  • an appliance's energy rating
  • size of the system
  • for space heating, whether a split system is replacing an existing ducted system or being added on externally.

A report last year by the Climate Council calculated the approximate cost differences between higher and lower-end electric appliances. Lower-end hot water heat pumps, reverse-cycle air conditioner and induction stoves were priced around $7,818 all together, while higher-end appliances cost around $14,936 together.

Both scenarios included installation costs and $3,000 for electrical upgrades and other costs.

The payback period for low-priced appliances ranged from five years in Hobart and Canberra to 15 years in Perth and Sydney. Higher-priced appliances were in the order of eight to ten years for most cities and 12, 16 and 19 years for Melbourne, Perth and Sydney respectively.

Rolled out at scale, household electrification is also a feasible way to reduce gas demand. It may be the only practical option available to decarbonise residential energy.

As research recently suggested, so-called "green" hydrogen—made by using low-carbon electricity to split water into hydrogen and oxygen—is unlikely to emerge as a cheap replacement for gas boilers. And why look for a technological solution to a problem we already know how to solve?

Modeling by Environment Victoria has shown installing heat pumps for heating and cooling would reduce statewide gas use by 48 petajoules a year, compared to the relatively minimal 0.5 petajoules saved by installing induction cooktops.

At the same scale—and using a similar technology—replacing gas hot water with heat pump hot water reduces household gas use by 10 petajoules each year. That's an enormous saving of gas.

The bigger picture for all-electric homes

Existing homes can benefit from a combination of electrification, rooftop solar and batteries. They can also benefit from energy efficiency measures such as installing insulation, stopping draughts, closing off rooms and wearing the right clothing for the season.

We can work together to speed up the transition to renewable and reduce the demand for gas.

Rachel Goldlust is developing a "Getting Off Gas Toolkit" for Renew. It aims to provide clear, accessible and practical advice to households on replacing gas with renewables. The public is invited to complete a survey to help design the guide.

Provided by The Conversation