Improving The Efficiency of Ceramic Heaters

It’s a proven fact that ceramic heaters are 100% efficient in converting electricity to heat, but there are some useful ideas that can help to diminish the demand of electric power and at the same time maintain a desirable temperature inside the house, thus improving the efficiency of any given electric heater. For example, 1500 watts of electricity are generated into 1500 watts of heat, this is true for any electric heater, whether conventional metal coil, oil, infrared, quark, or other kinds of heaters.

The only “loss” of electricity happens when the ceramic heater comes with other gadgets that use electricity, such as an oscillating option or fans that push air from the device, but these use a small percentage of the electricity that flows through the heater.

One of the problems that experts mention explaining why any electric heater can’t be efficient is the manner that electricity is generated. Usually electricity is generated from the combustion of fossil materials, such as carbon, natural gas or crude oil, generating only about 35-40% efficiency, losing the rest of the energy in the form of heat. This is a true and calculated fact, however it doesn’t refer to the function of ceramic heaters but to how electricity is created, thus not contradicting the previous statement, and in the end it’s not in the individual’s control, who is searching for a secure, fast and economic source of heat.

If ceramic heaters are already efficient how can their efficiency be improved? We have to realize that the end consumer is really looking for a way to economize electricity and therefore lessen his bills at the same time of satisfying his or her needs. On the other hand is the expert/technician who actually is searching for devices that generate more heat with lesser electric consumption or other source of energy. From this point of view the efficiency of an electric heater will depend on other factors of the heater and external factors.

The first thing to evaluate is the capacity of heat transference of the ceramic heater. Most of these heaters (depending on the size) use a large area of ceramic material, heating the circulating air faster and reaching the desired temperature in less time. From this point de device decreases its electric requirement in order to maintain the indicated temperature, with the consequent less consumption. Not all ceramic heaters have an integrated thermostat, buying one with this add-on is a good idea for an improved regulation of the environment.

Another related advantage is that the heater will produce its heat in a fast way, a feature desirable in any occasion, and due to the intrinsic properties of ceramic material it won’t overheat, making it a safer heater than conventional heaters. In this same manner the heater will cool down in a fast way when turning it off.

Another important measure is house insulation to prevent heat leaks y help the heater to consume less electricity in order to maintain the desired temperature. Insulation is needed in windows, doors, walls, ceiling, attic and basement. It can be done with any material, but preferably it should be material that doesn’t decay with humidity and lapse of time. Among the most used materials are cotton batts, loose-fill fiberglass, extruded polystyrene (XPS), cellulose, fiberglass batts, high-density polyurethane spray foam, mineral wool, low-density polyurethane spray foam and foil-faced polyisocyanurate. The most recommended is fiberglass batts, which is inexpensive and quick to install and polyurethane spray foam, as the best insulation technology.

These insulation materials can be used with vapor blockers, such as sheets of plastic or kraft paper, these will help so the insulation materials keep dry and function properly. This heat barrier is recommended to be placed on the inside in warm climate and on the outside in humid climate. Another action is adopting the use of a heat blocker, these are barriers that reflect the external radiation and reflect sunshine and block its effect on the inside of the house. They are usually made from aluminum sheets, placed over a flat surface and positioned in front of the windows.

Something important is to check the heating ducts of the house, these will lose heat in non insulated spaces within the house and it’s worthwhile to insulate them in these spaces. At the same time check for the existence of leaks and repair them with embedded fiberglass mesh. Another possible source of heat loss are water pipes, these can be protected with foam or some other insulating material.

Some less technical means of energy savings is accommodating to a less than ideal temperature, lowering the thermostat some degrees can help you achieve this, only enough so a light sweater is enough to keep you warm inside the house. Also using a heater for only necessary rooms instead of the whole house can save you much electric consumption.

Ceramic heaters are always a good idea as a primary or secondary source of heat, but the above mentioned ideas can improve their efficiency and energy savings.

Need Heat Fast? Consider the Versatile Ceramic Space Heater

Quick, safe and direct are three words that describe the advantages of an electric ceramic space heater. Plug it in for fast directed heat to a specific area of your room – ideal for focusing warmth on grandma or baby Joey when mom, dad and others are comfy with the ambient temperature. Light in weight and easily moved, a ceramic space heater warms in the same way as standing in the sunshine.

What’s Special about Ceramic Electric Space Heaters?

Electrical energy is used to heat ceramic plates built into the unit. The plates in turn heat aluminum baffles that radiate the heat in the direction desired. A major advantage of this type of heating is that the temperature is not hot enough to ignite paper or other flammables. Touching the casing does not result in a burn, making them much safer than oil-filled or infrared designs for use in the kids’ bedrooms and playrooms. Moreover they will automatically turn off if accidentally tipped. And like most modern electric space heaters, they are equipped with thermostats. Some units offer remote control temperature settings.

Bells and Whistles Add Utility to Ceramic Room Heaters

Remote temperature control is but one of the many features that add utility to an electric ceramic room heater. And manufacturers have exhibited creativity in creating a wide range of designs and features that increase the effectiveness of these heaters. Slim pedestal and column configurations, cleverly configured vase designs mounted in a metal scrollwork base, and easily moved utility or workplace models are but a few of the choices available to fit your décor and special space heating requirements.

Useful options include:

  • Oscillating models to direct heat to a broader area
  • Cylconic ceramic heaters designed to circulate air throughout an entire room
  • Auto-adjustable heat output that responds to room temperature changes
  • Humidifier-equipped ceramic heaters that add healthful moisture to dry winter air
  • Fresh air ionizers for a more comfortable environment
  • On-off timers and automatic overheat protection

Other Uses for Portable Ceramic Heaters

Smart homeowners save on central heating costs by turning off the heat in unused or seldom used rooms such as guest bedrooms and bathrooms. When company comes to call a timer and thermostatically controlled portable ceramic heater quickly and efficiently provides welcoming warmth to these areas. If you finish off attics, basements or add rooms to your home ceramic room heaters can save a pile of money vs. extending the central heating system into such areas.

Tips to Safe Ceramic Heater Operation

Today’s compact ceramic heaters meet strict codes including auto shutoff if tipped. While they are designed to minimize the danger of burns, exercise caution when placing them in areas where children are at play.

If more than one heater is used in a room, it is best that each operates off a different circuit. And remember never to use an extension cord with any electric space heater.

Infrared Saunas – Understanding Carbon Vs Ceramic Heaters

Infrared home saunas are growing in popularity as availability increases and cost declines. Choosing which sauna to bring into the home may seem like an easy decision initially — most are beautiful wood structures with comfortable seating, sound systems, and other luxurious perks. The choice of heating element, though, is where most homeowners get stuck. Infrared saunas come with either a ceramic heater or a carbon heater. What’s the difference? Both have their advantages and drawbacks, but having a basic understanding of each heating option will provide homeowners with enough information to make the best decision for their individual situations.

Warm-Up Time and Heat Distribution

Ceramic heaters generally heat up faster than carbon, but the more intense warmth tends to be most concentrated near the heaters. With carbon, the heat is distributed more evenly throughout the sauna and provides a body with even exposure to the heat. Heat that is not as evenly dispersed will warm the body unevenly, but it can be an effective way to focus the more intense heat on specific areas of the body that may need more attention. Some homeowners find that carbon heaters are a better choice for larger saunas because uneven heat distribution is more noticeable. Some, however, appreciate the variation in temperature in a sauna that uses a ceramic heater because it allows for a less intense experience.


An important consideration when comparing home saunas is durability of the heating components. Both carbon and ceramic heaters are considered durable. Ceramic rods, however, can be fragile, so carbon heaters are generally able to endure more abuse. Consider the quality of the sauna’s construction, too. A well-constructed sauna will help ensure that the heating elements are housed safely and will remain in good condition for many years.

Energy Efficiency

Infrared heating, in general, is highly energy efficient, so it’s no surprise that carbon and ceramic heaters both rank high for energy efficiency. Either choice would provide homeowners with a sauna that operates at a low cost. Carbon, though, tends to be more efficient than ceramic, which means operation costs would be even lower than with ceramic heaters.


Overall cost is certainly a consideration for homeowners in the market for a home sauna. Saunas that use carbon heating elements are usually more expensive than saunas that use ceramic. Before making the final choice, though, homeowners should weigh all of the different characteristics of carbon and ceramic heaters to determine which offers the best fit for the individual. Homeowners should also compare other sauna features as well. Quality of construction, size, ease of assembly, and creature comforts can make a big difference in cost.

Understanding the main differences between ceramic and carbon heaters for infrared saunas is essential for making the best purchasing decision. When the desired heating element and sauna features match the homeowner’s desires and expectations, the result is a more satisfying and rewarding experience.

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