Carbon Heater Vs Ceramic Heater Infrared Saunas

Carbon heaters can operate at a lower temperature due to the heating wavelength of infrared technology.

Carbon heater vs ceramic heater infrared saunas.

Traditional ceramic heaters heat up over 150 degrees to heat the entire sauna. These heaters have a high surface temperature and get very hot very quickly with hot and cold spots throughout the sauna. What is the difference between carbon and ceramic heaters. Combination carbon and ceramic heaters on the other hand give off the right kind and the right amount of infrared energy at a more tolerable temperature that allows users to stay in their saunas longer.

In the early years of infrared saunas ceramic was the most commonly used type of heater and are still used today in some saunas. This is more comfortable and of course allows for more useage which is crucial when it comes to getting health benefits like detoxification. Lower temperatures and longer wavelength infrared rays allow people to tolerate longer therapy sessions inside the sauna. With carbon heaters the heat is more evenly distributed throughout the sauna and provides a body with even heat exposure.

This makes carbon fiber the better choice from a. Carbon heaters operate at lower temperatures due to the heating wavelength of infrared technology. The traditional ceramic heaters have to heat up well over 150 degrees to heat the entire sauna. On the other hand the ceramic infrared heater used to be the most popular home sauna heater choice by many.

With carbon fiber infrared sauna heaters the risks are further reduced. Sweating occurs at around 115 degrees so it is not recommended to sit inside a traditional ceramic sauna for very long. There are extreme differences between traditional ceramic heaters in older saunas and the carbon heaters used in infrared saunas. The low risk and even frequency of the light waves from carbon heaters can give you that.

In general ceramic heaters are quicker to heat up than carbon heaters but with ceramic heaters more intense warmth tends to be concentrated closest to the heating elements.