A fireplace for heating a house with an air contour – which is better

Few things compare to a fireplace in terms of providing warmth and a cozy atmosphere for your home when it comes to heating. But in today’s world, when sustainability and energy efficiency are becoming more and more crucial, homeowners frequently find themselves weighing the advantages and disadvantages of various heating options. One topic of discussion that comes up regularly is which is better for efficiently heating a home: a contemporary air contour system or a classic fireplace.

A classic fireplace adds warmth and coziness to any space while serving as a conversation piece. It’s a favorite feature in many homes because of the cozy atmosphere it creates with the crackling sound of burning wood and dancing flames. Traditional fireplaces do have certain disadvantages, though. They can be ineffective, losing a lot of heat up the chimney, and need constant upkeep to remain secure and operational.

Conversely, air contour systems provide a more modern method of heating. These systems use vents and ducts to move heated air throughout the house, giving each room a constant temperature. Compared to conventional fireplaces, they are frequently more energy-efficient, saving homeowners money on heating expenses and lessening their carbon footprint. Furthermore, air contour systems may be more convenient and worry-free to operate and maintain.

Both air contour systems and conventional fireplaces have benefits and drawbacks, despite their differences. Which option is better for heating your home will depend on a number of factors, such as your budget, preferences, and lifestyle. You can improve the comfort and efficiency of your home and meet your needs by making an informed decision by being aware of the benefits and drawbacks of each system.

Factor Comparison
Cost Air contour system might be cheaper initially, but maintenance and fuel costs for a fireplace could add up.
Efficiency Both can be efficient, but a well-designed air contour system can distribute heat more evenly throughout the house.
Aesthetic A fireplace adds ambiance and can be a focal point in a room, while an air contour system is more discreet.
Environmental Impact Air contour systems can be more environmentally friendly if they use renewable energy sources, whereas a traditional fireplace emits smoke and particulates.

Air heating fireplace

Convective fireplaces can be identified by their installation method (built-in or floor).

The floor model’s hull is made specifically for flooring—the preferred method. One to three transparent glass walls make up the aggregate. The furnace’s operation offers excellent heat efficiency and simplicity of installation.

A portal that has been specially installed in the wall serves as the installation site for built-in modifications. The device simulates a traditional fireplace without taking up any of the room’s open space.

Crucial! Further work will be needed to place the built-in furnace, including creating the Nash portal and laying air channels.

Pros of convection heating

The benefits of convection heat transfer over conventional fireplace design are numerous and include:

  • Fuel consumption is reduced by 20% due to three factors – direct heat transfer from the open firebox, heating the walls and convection – mixing the cold and hot flow of air masses.
  • It is convenient to observe the operation of the fireplace through panoramic glazing. The risk of firewood from the fireplace and smoke entering the building is excluded.
  • Air channels laid inside the walls exclude the need to use radiators.
  • Closed firebox prevents the direct contact of burning fuel with air indoors.
  • The heat casing accumulates heat and distributes air flows in various directions.

Take note: Analogs with a water circuit and the same heating efficiency cost more money than air-heating fireplaces.

Double heat transfer is a feature of the water circuit; the radiator transfers heat through the air after the firebox warms the water. Instantaneous heat transfer is a feature of the convection system because of air flows.

Design features

Studying the structural components of the system will make it simpler to comprehend the convection fireplace’s operating principle:

  • The assembly case is monolithic, made of metal;
  • Topka – cassette, closed;
  • The air distributor is represented by a metal plate with holes for redirecting air flows through the channels;
  • The throttle performs the control valve in the wiring of air pipes;
  • Anemostat covers the air exiting places into the space of the room.

Ventilation devices and filters are additional features of forced type systems.

How the air heats up

Convection heating is the basis for how air wiring heating works. Cold air is introduced into the apparatus at floor level through specific holes, where it warms up and travels through the air ducts that shout into the firebox. Warm streams travel through pipe wiring and are directed upward.

It’s critical to understand! Firewood can be heated through both forced and natural convection.

Without fans or turbines, air circulates naturally in gravitational systems. don’t need a complicated wiring layout and operate quietly. It is ineffective to raise the device’s heated area using natural circulation.

You can extend the heating radius of an electric fireplace from 3 to 10 meters by using forced air convection. Nonetheless, the energy dependence and noise produced by the fans inside the channels define the system.

Heated air wiring

Warm air distribution is accomplished through specialized wiring of flexible corrugated pipes. The following details are taken into consideration when installing air ducts step-by-step:

  • The laying of the air -pipeline starts with the air mass distributor.
  • Warning air ducts through adjacent rooms of the building is sold through fans. The optimal will be three times the air exchange for 1 hour.
  • Horizontal position of the pipes should be avoided. Otherwise the air will move less intensively, heat transfer will decrease.
  • The lattices of air pipes (animostats) are placed close to the base of the floor, ensuring the uniformity of heating the room.
  • The cross -section of a flexible corrugation should not be less than output pipes of the furnace.

Consideration should be given to the installation of a fireplace during the wall-construction phase. The black coating makes it easier to lay the heating system’s foundation, and installing air pipes will require some wall destruction.

Choosing power and stamp of fireplace

The following formula is used to calculate fireplace power: 1 kW = 10 m². A lot of developers express the device’s productivity in m³. Finding the fireplace’s power within the confines of a private home is fairly easy. The room’s length, width, and height must all be multiplied. The final figure is based on the building’s volume and the fireplace’s productivity measured in square meters.

Advice: Look for products from reputable manufacturers like Termofor, Nordika, Palazetti, and Piazette when buying a fireplace to heat a home, cottage, or business space.

When it comes to heating your home, choosing between a fireplace with an air contour system or traditional heating methods can be a tough decision. While both have their advantages, understanding which option is better for your house requires weighing various factors. Fireplaces with air contour systems offer a cozy ambiance and can efficiently distribute heat throughout your home. However, they require proper maintenance and may not be as cost-effective as other heating methods in the long run. On the other hand, traditional heating systems like furnaces or heat pumps provide consistent warmth but may lack the charm of a fireplace. Ultimately, the best choice depends on your priorities, budget, and the specific needs of your household.

Basic installation rules

When using a fireplace to heat your home, pay attention to these widely acknowledged guidelines:

  • In order to avoid an unpleasant sound, the pipe choose a round section.
  • It is advisable to create a convection chamber from galvanized steel, sheathed with drywall.
  • To arrange a fireplace furnace, a strong stand is required made of brick.
  • Air pipes should be diluted throughout the house, a duct of the air ducts should be placed in a technical room.
  • The base for the fireplace stove must be separated from the main foundation of the building.

There aren’t many guidelines when building a fireplace, and disregarding them will have a detrimental impact on the unit’s ease of use and ability to retain energy.


Fire-resistant brick, gravel, cement, sand, and formwork boards will be needed to build the fireplace. In addition to the aforementioned primary structural components, the list will also include fans, pipes, closed fireboxes, foil, roofing material, and reinforced mesh. A hammer, a chisel, a shovel, measuring instruments, a drill, and a grinder are some of the tools you’ll need. Before you begin, you should create a thorough plan that includes instructions on how to conduct the heating circuit.

Organization of the foundation

Installing the foundation marks the start of the organization work for the fireplace complex.

The base’s dimensions should extend 15-20 centimeters past the fireplace’s edge. The pit is 70 cm high, with a 15 cm-high pillow of sand and gravel at the bottom. Cement solution is poured on top, stopping 15 cm short of the clean floor.

Laying the base

The tiles will handle the base’s functions flawlessly. The masonry should be 15-20 cm larger than the fireplace’s perimeter.

Thermal insulation of walls

Superizol or basalt fiber slabs are offered for wall fire safety. The base tile is also appropriate for use.

The structure of the firebox

The lower portion of the furnace loses around one-third of its heat. For the purpose of heating the house, installing a fireplace on brick supports is advised. 30 to 50 centimeters is the ideal gap between the firebox and the base.

Construction of a brick apron

The furnace’s depth determines the brick volume. Bricks are laid with a dressing way on both sides of the furnace if the fireplace is built up against the wall.

Installation of the chimney

The fireplace chimney hole should be the eighth of the firebox’s overall size.

Smoke can be eliminated by removing the double pipe-sandwich pipes through the wall or the roof. The gate (damper) connects the firebox’s outlet opening to the chimney.

Creating an air casing

It is recommended that the air casing be completed subsequent to the furnace’s chimney connection. The metal profile that forms the sinus’s foundation is the foil known as "Faerok," which serves as the heater. Magnesite conveniently sheaths the interior space.


The fireplace’s lining improves and guards against cracking while making heating device maintenance easier. The choice depends on personal preferences and interior design, but the outer layer will look good in the performance of decorative stone, ceramic tiles, and red brick.

Selecting between an air contour system and a fireplace for your home’s heating needs can be difficult. Each of the two choices has pros and cons of its own.

Let’s start by discussing the conventional fireplace. Getting together around a crackling fire on a chilly evening has an indisputable charm. A focal point and a warm atmosphere can be created in your living area with a fireplace. They also have the added advantage of allowing you to boil water or cook food in the event of a power outage. Nevertheless, if not properly maintained, traditional fireplaces can contribute to air pollution and be inefficient when it comes to heating larger areas.

An air contour heating system, on the other hand, provides a more contemporary method of heating your house. By distributing heat equally throughout the house, these systems get rid of cold spots and offer steady warmth. Additionally, they use less energy than conventional fireplaces, which will reduce your long-term heating expenses. Furthermore, air contour systems are remotely controllable, making temperature and scheduling modifications simple.

Your individual needs and preferences should be taken into account when choosing between an air contour system and a fireplace. A traditional fireplace can be the best option for you if you appreciate its nostalgic charm and visual appeal and don’t mind the maintenance involved. However, an air contour system might be a better choice if heating, convenience, and efficiency are your top priorities.

In conclusion, there are benefits and drawbacks to both air contour systems and fireplaces. The ideal option ultimately depends on a number of variables, including your heating needs, budget, and lifestyle. Whichever option you decide on, maintaining and installing it correctly is essential to optimizing comfort and efficiency in your house.

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Air heating fireplace

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Michael Kuznetsov

I love to create beauty and comfort with my own hands. In my articles I share tips on warming the house and repairing with my own hands.

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