If flowers don't grow in your house, try Bilux infrared heating!

A greenhouse is indispensable for obtaining a good harvest of greens, berries or vegetables in a minimum period of time. And if you intend to always have natural vitamins on your table that are found in fruits and vegetables, then you will need infrared heating of greenhouses.

As practice shows, one of the best heating systems for a greenhouse or greenhouse is infrared heating. It is perfect for growing various plants in greenhouses at any time of the year. An IR heater makes it possible to effectively warm the air and soil to the desired temperature.

Of course, other heating options can also be used for these purposes. For example, a convector, a gas heating boiler, a wood stove, water heating. But all these methods are associated with significant expenditures of effort, time and money required for their installation and maintenance. IR heating does not have these disadvantages.

Peculiarities

Attention: The main feature of the infrared heating system is that it does not heat the air itself in the greenhouse, but the plants and soil that are located in the radiation field. This radiation is much like solar energy. After all, the heated earth, sprouts and other objects emit peculiar photons, which are reflected back by the walls of the greenhouse.

This is precisely the main difference between this method of heating greenhouses and all others. After all, other methods only increase the temperature of the air that rises. They do not warm the soil and shoots. Of course, this can be corrected thanks to water pipes that should be buried in the ground. But then the cost of such a greenhouse heating system will increase significantly. In addition, controlling soil temperature will be much more difficult.

By installing an infrared heating system for a greenhouse, you will achieve rapid germination, development and fruiting of plants, since the direction of radiation will be from top to bottom. According to numerous studies, it has been proven that with such heating, seed germination increases by almost 30-40%. This is possible precisely due to good soil heating. At the same time, the air in the greenhouse does not heat up much, which is a positive factor.

Some infrared heating devices can also be placed under a layer of soil. But for this you will need to use a special IR film.

Advantages

In terms of their effects, IR systems resemble solar energy. With their help, the desired temperature is created directly in the plant growth zone. This is how they differ significantly from convectors for the better. After all, they heat the air that rises, while the sprouts remain cool.


The main task of an infrared heating system is to heat plants, soil, shelving, greenhouse walls and containers with seedlings.

Attention: The loss of efficiency with this type of heating does not exceed 10%.

Water heating of the greenhouse also gives a good effect. But there are difficulties with installing the pipeline. After all, it must be laid in the ground, and this takes a lot of time and effort. In addition, this heating method is quite expensive. Infrared heating is superior in two important indicators - mobility and energy saving. It also provides an opportunity to save a lot of money.

Among the advantages of infrared heating of greenhouses are the following:

  • destruction of various viruses and bacteria that negatively affect sprouts;
  • uniform heating of all plants and soil;
  • positive effect on the development and growth of plants;
  • creating a humid microclimate in the greenhouse, since the air does not dry;
  • long service life and reliability;
  • significant increase in yield.

All of the above advantages make infrared heating of greenhouses quite popular and the demand for them is always great. Although a lot depends on the climate. After all, if winters in the region are usually too cold, then heating will have to be done in a different way, since IR radiation may not be able to maintain the desired temperature in such conditions.

If flowers don't grow in your house, try Bilux infrared heating!


Are your flowers not growing?
Long-wave heaters will solve this problem! Flowers love Bilux! The sun's rays are the main source of heat on the planet. Heat and visible light are emitted simultaneously. Together they are the most important components of the development and maintenance of life on our planet.

Infrared rays are felt by us as heat. Heat significantly changes the rate of biochemical processes in the tissues of organisms, which greatly affects the growth, development and reproduction of flora and fauna. Incredibly, but true, different wavelengths of infrared radiation have different effects on skin and plants.

What is the role of infrared rays in the life of plants?

It turns out that according to J. H. Van't Hoff's rule, the rate constants of biochemical processes increase 2-4 times with an increase in temperature for every 10 degrees. It is known that biophysiological reactions in plant tissues begin at a temperature of +5 degrees Celsius and are activated at +10 degrees Celsius.

Infrared rays prevent plants from overheating. When plants heat up, they evaporate water. In this case, excess heat is removed through the leaves, and thanks to this, the process of CO2 absorption begins. Long-wave infrared emitters do not create convection and do not burn oxygen, and also create a comfortable environment for plants and animals at an air temperature 3 degrees lower than with convective heating!

An example of the effect of Bilux long-wave heaters on the growth of flowers indoors.

What is the role of infrared rays in human life?

Infrared rays play a vital role in the existence of all life on Earth. Each organism contains a huge amount of water up to 70%. The water molecules are heated evenly, so the animals are heated evenly. For cold-blooded ones: lizards, snakes, whose body temperature depends on the environment - this matters :). Imagine the water heating up unevenly - what could this lead to?!

The most amazing thing is that people themselves are able to generate infrared waves of 6-20 microns, since the body maintains a constant positive temperature. The optimal range of far-infrared radiation is from 5 to 14 microns, which is very close to the resonant frequency of water molecules. This similarity makes sense since our bodies are also made up of almost 70% water. This range, sometimes called "Vital Rays", has a special regenerative effect on the body .

The video below shows how long waves (wavelengths similar to those emitted by humans) can remove toxins from the body. A short wave, on the contrary, overheats the upper layers of the skin and dries it out.

The heat from the heater with a wavelength of 5 microns is evenly distributed over the floor, which already emits 9.4 microns - this is the radiation of a healthy person on the surface of the skin. As water molecules resonate and vibrate (see video above), this vibration causes the release of cellular toxins such as mercury, aluminum, cholesterol and other toxic gases such as sulfur and formaldehyde. The energy output from a long-wave infrared heater is so close to the radiant energy of the body that our body absorbs 96% of the energy while warming up to 4 cm. But without OVERHEATING!

Equipping a greenhouse with an infrared heating system

Attention: There are three types of infrared greenhouse heating system: suspended, mixed or recessed. Its choice depends on the needs of the greenhouse owner. If the greenhouse is planned to be used only in the warm season, and it is needed for growing only heat-loving plants, only hanging IR heaters will be sufficient.

Complex infrared heating systems are suitable for floriculture and vegetable growing throughout the year. If you are using a greenhouse for early growing of greens and seedlings, then to warm the soil you should use a buried system that should be laid in the ground.

Suspended heating

The simplest type of infrared heating of a greenhouse is the use of suspended systems. They should be hung from the ceiling or walls of the greenhouse and connected to an energy source and directed to the beds. Due to their compactness and low weight, they can be installed in a greenhouse for as long as needed. It all depends on the area of ​​the structure and their power. Heaters or lamps can be used as hanging systems.

Heaters and lamps are equally resistant to temperature changes, mechanical stress, high air humidity, and various chemical reagents. It is recommended to install the IR heater at a height of at least 1 meter from the plants. The height can be determined more accurately based on the size of the greenhouse and the temperature required for good plant growth. One should also take into account the fact that the higher the IR heating system is located, the larger the area it will be able to cover. But at the same time, the plants will receive less heat.

Also read: How to make a winter greenhouse yourself?

Infrared heaters for greenhouses

Experts and summer residents with many years of experience claim that heating a greenhouse with an infrared device gives us the opportunity to grow a much more stable and high-quality crop, harvest it faster and minimize heating costs, because IR heaters have a fairly high efficiency factor.

After this statement, we would all like to hear about the main advantages of IR heating:

  • High-quality and uniform heating of the entire area with proper installation of heaters;
  • Maintaining stable humidity, since the air does not dry out and does not burn out during heating;
  • Seriously suppresses the growth and development of bacteria and pathogens, reducing the number of infections;
  • Uniform distribution and supply of heat, which is very correct, because it eliminates temperature changes;
  • Reducing the circulation of dust throughout the internal space of the structure;
  • The beneficial effects of the above factors on the growth and development of plants.

IR heater

The heaters are IR ceramic emitters enclosed in a protective casing. To achieve high-quality beam distribution, it is equipped with a reflector. Thanks to the presence of a mounting block with a cable, connecting the heater is simple and convenient. Installing this device will not cause any difficulties. You just need to follow the recommendations specified in the instructions.

Heating of the greenhouse with hanging infrared heaters should be carried out at a distance of 1.5 - 3.0 meters from each other.
But the distance largely depends on their power, dimensions, temperature in the greenhouse and their height above the beds. If it is freezing outside, infrared heaters should be directed at the walls of the greenhouse.

IR lamps

Infrared lamps are small ceramic emitters made of durable materials. They resemble ordinary light bulbs in appearance and are screwed into the socket just like they are.

Attention: Since their power is significantly lower than that of heaters, they are installed in the greenhouse at a distance of no more than 1.5 meters from each other. They are usually used for heating greenhouses with a small area.

When installing IR heating, it is necessary to take into account that the distance from the heaters to the plants must be constant. To achieve this, it is best to install them on hangers that can be adjusted in height.

Homemade gas heater for a tent

Reviews:

Arthur Mustafin

writes: This, of course, is all very practical, but it seems to me that it would not be out of place to mention safety precautions when coming into contact with an open flame in a tent. Personally, I have used heated stones several times. It happened that I simply heated up the water, poured it into a half-pack and stuffed it into the sleeping bag.

Alexander Yurievich

writes: Well done! Cool performance! I really liked it!

Arthur Mustafin

writes: This, of course, is all very practical, but it seems to me that it would not be out of place to mention safety precautions when coming into contact with an open flame in a tent. Personally, I have used heated stones several times. It happened that I simply heated up the water, poured it into a half-pack and stuffed it into the sleeping bag.

Alexander Yurievich

writes: Well done! Cool performance! I really liked it!

When does a greenhouse need a heater? This depends on what exactly is grown in it, in what season, what its size, area and thermal conductivity are. So, if the seedlings in the greenhouse are freezing, it will really be enough to light a couple of candles. But for a height of 2.5 meters and an area of ​​20 m2, completely different thermal powers are required. In such a greenhouse it is possible to get by without a heater only from -1? C and above, but at -6? C active heat is already needed. These could be, for example, even fan heaters with a timer, on which you can set the power and adjust the frequency and duration of activation.

Heating from below

If you want to efficiently heat the soil with an infrared system, you should use heating from below. It consists of special films that must be laid on the ground. There are two schemes for its installation: horizontal and vertical.

If the installation is horizontal, the film should be laid under the beds to a depth of approximately 0.5 meters from the surface. When installed vertically, it should be laid vertically around the perimeter of the greenhouse and between the beds.

Despite the fact that installing bottom heating is much more complicated than vertical heating, it is more economical. This is due to the fact that energy only warms the soil and air below. Thanks to this, significant energy savings can be achieved. But at the same time, this heating method also has some disadvantages. In particular, care should be taken not to damage this system when replacing soil in the greenhouse, which is carried out daily as a preventative measure to prevent plant diseases.

By installing infrared heating for greenhouses and greenhouses, you can count on a good harvest at any time of the year. This heating method is much more effective than all other methods. In addition, it allows you to save a lot of money. Thanks to infrared heating, conditions are created in the greenhouse that are almost completely close to natural. After all, the radiation of these systems largely corresponds to that of the sun.

By using this heating method, you can significantly reduce the cost of grown products and increase productivity. After all, a greenhouse equipped with infrared heating can be used throughout the year.

Warm floor Heating Lux 100PL-660-3.0 m² infrared film without thermostat

KITS WITH THERMOREGULATORS:

MECHANICAL “Heating Lux”

MECHANICAL TR 510

ELECTRONIC TR 515

PROGRAMMABLE TP 520

Wi-Fi software control MCS 350

Infrared film heated floor Heating Lux 100PL, 1 m wide for dry installation under laminate, parquet, linoleum and carpet. These are universal solutions that can be successfully used for primary and additional heating of premises for various purposes.

Products are certified. Warranty - 7 years, service life more than 30 years.

Select the “Heating Lux 100PL” kit, 1 meter wide over the heating area:
1 m² | 2 m² | 3 m² | 4 m² | 5 m² | 6 m² | 7 m² | 8 m² | 9 m² | 10 m² | 11 m² | 12 m² | 13 m² | 14 m² | 15 m² | 16 m² | 17 m² | 18 m² | 19 m² | 20 m² | 21 m² | 22 m² | 23 m² | 24 m² | 25 m² (catalog)

Design Features

The basis of the proposed film heated floor is formed by conductive strips of carbon. They form a single electrical circuit together with a copper busbar (the strips are in contact with it through silver paste). The conductive part is hermetically sealed in a special electrical polyester. This material makes the infrared floor of the Heating Lux 10PL brand durable and safe to use because:

  • does not allow moisture to pass through;
  • does not conduct electric current;
  • protects against mechanical influences of medium strength.

The width of the film heated floor is 1 m. The range also includes kits with a thermal film width of 0.5 m and 0.8 m.

Kit contents

Heating infrared film, 1 m wideConnection sets (2 pcs.) for film heated floors (bitumen tape + electrical terminals)Installation wires (2x4 m.)

Operating principle

An alternating electric current with a voltage of 220 V flows through the carbon strips of the infrared floor brand Heating Lux 100PL. Under its influence, the strips emit long IR waves into space. The latter heat the surrounding objects - flooring, interior items, walls and ceiling of the room. Heat from heated objects is transferred to the air. This is how the room is heated with a film heated floor, and it should be noted that this happens evenly throughout the entire volume of the room.

Scope of application

An important advantage of the Heating Lux 100PL infrared floor is its versatility. It can be used to create a main or auxiliary heating system:

  • Houses;
  • apartments;
  • public premises;
  • office;
  • administrative institution;
  • greenhouses or greenhouses;
  • other premises.

Floor coverings such as parquet, laminate, carpet and many others can be laid on top of the film heated floor.

Advantages of foam heated floor Heating Lux PL

  • efficiency (this advantage is especially pronounced when a thermostat is included in the system);
  • safety for others;
  • uniform heating of the room provided by the infrared floor;
  • affordability;
  • durability. The service life of the proposed heated floor is calculated in decades!


Installation stages

  1. The base on which the film will be laid is cleaned of dirt and leveled. Be sure to remove any sharp fragments so that they do not damage the heating elements.
  2. A heat-reflecting film is laid out on the base. A groove is made in it into which the temperature sensor is placed.
  3. The infrared floor is laid on the reflective film.
  4. The terminals included in its design are insulated using bitumen-based tape.
  5. The selected floor covering is being installed.
  6. A temperature controller is included in the heating system, after which it is connected to the AC mains and put into operation.

The heating area is calculated using the formula

S heating = S total - (S furniture + S household appliances)
where, S total = axb

  • Distance from walls - 50mm
  • Distance from furniture and household appliances - 100mm

Calculation example

Total hallway area (S total) = 11 m²

Area of ​​furniture, household appliances, taking into account indents: (S furniture + S household appliances + S indents) = 7 m²

11 m² – 7 m² = 4 m²

The resulting figure = 4 m².
From the table above, select the nearest smaller value*. Those. in our case, 3 m² (*if you select a larger value for the heated floor area than the area of ​​the room, this will lead to the fact that the heated floor will not fit into the room)

Rating
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