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Bathroom Heaters

bathroom floor heating

Bathroom Heaters

Across Australia, more and more people are moving away from conventional bathroom heaters to invisible electric underfloor heating systems. Heat Lamps and radiators are not energy efficient and not the prettiest solution for your new bathroom design. Also, a conventional heater and exhaust fan are simply inefficient too. 3 in 1 Units that have heat LED downlights, exhaust ceiling fans are also far from energy efficient. Coldbuster’s Underfloor Bathroom Heaters are energy efficient and provide an even warmth across the whole space. You feel the warmth that radiates from the floor upwards to provide a luxurious comfort that is just not possible with a heat lamp or towel rail radiator. By adding a thermostat with scheduling and temperature control you can effectively manage your energy costs. Bathroom under tile heating systems from Coldbuster have been specifically optimised, for these smaller spaces, to provide luxurious warmth efficiently and cost-effectively. With nothing visible or surface mounted parts, Coldbuster bathroom underfloor heating will not compromise your new bathroom design. The perfect solution when you are renovating your bathroom.

Bathroom Electric Underfloor Heating

The Advantages

  • An evenly distributed heat that radiates from the floor up. This results in heating the right space in the room, providing effective body warmth and not having all the hot air wasted in the ceiling. See the illustration above that shows how closely underfloor heating matches the ideal heating system.
  • Lower output temperature required as rising warmth provides more efficient heating.
  • No visible unit, vents, ducts or wiring. This is great for your room design but also provides extra safety as no heat source is touchable. Perfectly safe for your children and pets. No burns or fire risk.
  • No forced air flow and so no airborne dust or allergens. Great for allergy or asthma sufferers.
  • Energy efficient system – eco-friendly.
  • Electric so no boiler or plumbing required.
  • No maintenance.
  • Coldbuster underfloor Bathroom Heaters are not surface mounted so no cleaning is required.
  • Completely silent!
  • Low-cost installation as available as Supply-Only kits.
  • Thermostat controllable. Temperature and Scheduler control to manage your energy consumption.
  • Run each room independently. You don’t need to fire up the boiler just to heat your bathroom.
  • You can install without affecting existing heating systems. Great as retrofit and renovation solutions.
  • Coldbuster Bathroom Heaters are ultra-thin (2.6mm). This makes for even easier installation even in critical floor level situations.
  • Suitable for use under most hard surfaces including ceramic tiles, slate, porcelain, limestone, marble, terracotta, wood, laminate, vinyl & stone.


Coldbuster Underfloor Heating Kits include:

  • Pre-configured element mounted on a roll of mesh with self-adhesive fixing tape or as a single roll of cable for in screed solutions.
  • Factory terminated cold tail leads 3m long.
  • AE-SS installation monitor (element alarm/tester).
  • Installation guidelines.
  • 25-year warranty.
  • Technical & installation support (telephonic).
  • No additional supplies are needed other than bonding supplies normally used when laying a tile floor.

The simplest way to get the right product and the right size of product is to Get A Free Quote

Need Electric Underfloor Heating?

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For more information see our Measuring Up for Floor Heating Guide

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Key Factors Affecting the Running Costs of Electric Floor Heating from Coldbuster

There are many factors and assumptions that may influence the costs of running electric floor heating.

Please note that the factors and the assumptions that underpin this Running Cost Calculator mean that results should only be used as a rough guide, as conditions (some of which are listed below) can vary greatly.

The efficiency and cost of the electricity used for heating directly impact running costs. More efficient energy sources and favourable electricity tariffs reduce overall expenses. Electricity prices vary by provider and plan. Choosing an energy-efficient tariff and monitoring peak and off-peak rates can help minimise heating costs.

The assumption in this running cost estimate model is that your energy source is cost-effective and the electricity tariff is optimised for heating needs.

The total time the heating system is operational impacts energy consumption. Running the system only when necessary and using programmable thermostats to create heating schedules can optimise usage.
The assumption in this running cost estimate model is that your heating is running only when necessary and optimised accordingly.

A duty cycle for electric underfloor heating represents the percentage of time the system is actively heating versus its total operational time. After the floor reaches its set temperature, the system cycles on and off to maintain it. The calculator factors this in and assumes a 50% duty cycle.

The temperature set on the thermostat directly affects energy usage. Lowering the thermostat temperature by just a few degrees can significantly reduce running costs without compromising comfort. Programmable and smart thermostats can optimise heating schedules, reducing energy use during non-peak times and enhancing overall efficiency. Setting the thermostat to an optimal temperature (e.g., 20-22°C) during occupied times and lowering it (or even better turning it off) when not in use can significantly affect running costs.

The assumption in this running cost estimate model is that you are using one of Coldbuster’s smart programmable thermostats to manage heating schedules effectively and that the settings are optimised for both comfort and efficiency.

Proper insulation reduces heat loss, making the heating system more efficient. Effective insulation in your floors, walls and roofs will help maintain the desired temperature with less energy consumption. Better insulation helps retain heat within the room, minimising the energy required to maintain comfort.  

The assumption in this running cost estimate model is that your building has high-quality insulation materials installed in the walls, roof, and floor.

The type of floor substrate affects heat retention and energy efficiency. Concrete floors, for example, retain heat longer, while timber floors may require more energy to maintain warmth.
The assumption is that your floor substrate is conducive to efficient heating, with thermal insulation boards used where necessary to enhance heat retention.

Different floor coverings have varying thermal properties. Materials like tile and stone conduct heat efficiently, while carpets and wood may require higher energy to achieve the same comfort level.
The assumption in this running cost estimate model is that your flooring material is chosen with consideration of its thermal conductivity and compatibility with the heating system.

Draughts from poorly sealed windows and doors, as well as other gaps, can lead to heat loss and increased energy consumption. The type and quality of windows and doors significantly impact heat loss and gain. Double-glazing and well-sealed frames reduce draughts and improve thermal efficiency.
The assumption in this running cost estimate model is that your windows, doors, and other potential gaps are well-sealed to prevent drafts and heat loss.

The overall energy efficiency of a building, including factors like construction quality, age, design and energy ratings, all affect its thermal efficiency and hence impacts heating costs. Older buildings may have more heat loss compared to newer, energy-efficient constructions.

The assumption in this running cost estimate model is that your building is relatively modern or has been updated to meet contemporary energy efficiency standards.

The local climate influences heating needs. Colder outdoor temperatures increase the demand for indoor heating. Regions with milder winters require less heating and would therefore typically have lower running costs compared to areas with harsh winter and cold conditions.

The assumption in this running cost estimate model is based on average climatic conditions specific to the region in Australia where you are located and where the system is installed.

The efficiency of the underfloor heating system itself plays a crucial role. The efficiency determines how effectively it converts electrical energy into heat. Modern systems with advanced controls and high efficiency like Coldbuster use less energy to achieve the desired warmth.
The assumption in this running cost estimate model is that your heating system is running efficiently at all times. 

The ability to control heating in different zones or rooms independently allows for more precise energy use, heating only the areas that need it.

The assumption in this running cost estimate model is that your heating system is designed with zoning capabilities for customised temperature control.

The design of the heating system, including the layout, spacing, and type of heating elements, affects heat distribution and overall efficiency. The size of the room in relation to the heater’s capacity is crucial. An appropriately sized heater ensures efficient heating without overworking the system.

The assumption in this running cost estimate model is that your heating system is designed and installed by experienced Coldbuster installation professionals or other suitably qualified professionals to ensure optimal performance and energy efficiency.

Consistent and predictable usage patterns help in planning and optimising energy consumption. Irregular or excessive use can lead to higher costs.

The assumption in this running cost estimate model is that your usage patterns are regular and not excessive.

Higher ceilings result in larger volumes of air to heat, which can increase energy consumption. Rooms with standard ceiling heights are more energy efficient.

The assumption in this running cost estimate model is that your ceiling heights are standard (2.4 to 2.7 meters) to maintain optimal energy efficiency and minimize excess energy use.