Cuisine Solutions terraces of restaurants, hotels and bars
Convection heat never has been used to warm up outdoor spaces like Hotel entrances, Smoking areas or near the outside of hospitality. Conventional systems as gas, oil or ceramic are heating up the air. Therefore they were not suited for this job. They were used for the indoors where they heated up the air, which took time and the room needed to be remained closed for that period of time.
The Infrared technique of Philips HeleN is not influenced by strong wind. Therefor it is more suitable to use for the outdoor areas by bars, hotels, restaurants. No warm up time is required.
There are lots of people waiting limousine bus or taxi to head for another destination in Hotel front and the priority thing in the hotel is to meet customer's feelings at home and leave a good impression when they check out.
These days they think over any good idea to leg up on their competition. It is the PHILIPS heater that solves not only the heating system at front but only give some hospitality for the customer. Especially the season in spring and fall there must be some cold at night outdoor and easy to get a cold. When it comes to the Best Trade there is no worry about getting a cold at night. Soon staffs in Hotel should have an infrared heater at each entrance for giving customers a good healthy waiting.
Architecture / Design equipment buildings: both indoor and outdoor facilities.
Architectures all over the world integrate infrared heaters whilst designing buildings for several reasons. Let us point out some of these reasons:
During shaving & washing in the bathroom, just approx.15∼20 minutes with a Solamagic infrared heater that instant heat enables you to improve cardiovascular, strengthen immune, creates beautiful skin, assist in weight control, remove cellulite and provide immense relaxation just like a sauna.
Because far infrared technology does not heat the air of the room directly, and infrared rays are directional, only the person who is receiving directly the far infrared rays will feel warm in the room. Therefore, in the case of far infrared space heaters, it is extremely important to make a study of the room and place the far infrared panels directed to the places where people stay most of the time (sofa, dining table, bed, etc.).
As the air of the room is not heated directly, and only the limited areas where people stay in the room are heated, far-infrared heaters save energy compared to heaters that heat totally or partially (like near and medium infrared heaters) the air of the room.
Architects are getting more aware of all these aspects. Especially in times where we have to be smart with the amount of energy we use.
Commerce Solutions specializes in the skilled trades
Infrared massage therapy is a great and efficient way to relive back pain, lose weight, heal the skin, release body toxins, and simply relax. Infrared is 100% safe and is in fact used in hospitals to warm new born babies.
They are also used to provide warmth to suckling animals whose mother cannot or will not provide them with natural warmth as well as to captive animals in zoos or veterinary clinics, especially for lizards and other reptiles, and tropical animals such as birds.
Wellness. Using the infrared heat Wellness for relaxation and wellness.
Some wavelengths are reflected and others are absorbed. This absorption can take place in a number of ways, either only in the outer layers or deeper in the skin. In the sauna the hot air comes into direct contact with our skin, and therefore only with the surface of the skin.
Traditional high heat saunas usually operate at temperatures of 180 degree F to 220 degree F. Most people cannot tolerate this high temperature for very long and it causes the mucous membranes to dry out. This is why water or steam is introduced. Patients use the Near Infrared saunas at between 100 degree F and 130 degree F. This feels like a warm dry room and the perspiration characteristics are significantly improved. Not only does the perspiration contain more toxins and less water but also more toxins will be expelled out through your kidneys, liver and even hair due to "resonant absorption".
When subjected to high temperatures, we must ensure that the heat is absorbed in as high a volume as possible, i.e. that the rays penetrate as deeply as possible. Figure shows that the greatest depth to penetration is achieved with a wavelength of approximately 1.2um. It is therefore important to select a radiation/heat source for a cubicle, which will emit as much energy as possible at this 1.2um wavelength. (There are peaks at 1.2um). lf heat sources in the longer wavelength section of the spectrum are used, then the depth of penetration will be greatly reduced and as a result the pain threshold will be reached more quickly.
Some wavelengths are reflected and others are absorbed. This absorption can take place in a number of ways, either only in the outer layers or deeper in the skin. In the sauna the hot air comes into direct contact with our skin, and therefore only with the surface of the skin.
Traditional high heat saunas usually operate at temperatures of 180 degree F to 220 degree F. Most people cannot tolerate this high temperature for very long and it causes the mucous membranes to dry out. This is why water or steam is introduced. Patients use the Near Infrared saunas at between 100 degree F and 130 degree F. This feels like a warm dry room and the perspiration characteristics are significantly improved. Not only does the perspiration contain more toxins and less water but also more toxins will be expelled out through your kidneys, liver and even hair due to "resonant absorption".
When subjected to high temperatures, we must ensure that the heat is absorbed in as high a volume as possible, i.e. that the rays penetrate as deeply as possible. Figure shows that the greatest depth to penetration is achieved with a wavelength of approximately 1.2um. It is therefore important to select a radiation/heat source for a cubicle, which will emit as much energy as possible at this 1.2um wavelength. (There are peaks at 1.2um). lf heat sources in the longer wavelength section of the spectrum are used, then the depth of penetration will be greatly reduced and as a result the pain threshold will be reached more quickly.
Events Solutions heat events, reunions, parties, etc..
A lot of purposes can be found in the world of events and fairs. Because no gas or oil is required heat is present in a blink of the eye. Dressing rooms in tents, waiting rooms for artist, to heat the vendors on a rainy day… we can go on and on..
Infrared heating technique
An infrared heater is a body with a higher temperature which transfers energy to a body with a lower temperature through electromagnetic radiation. Depending on the temperature of the emitting body, the wavelength of the infrared radiation ranges from 780 nm to 1400 nm. The relationship between temperature and wavelength is expressed by the Wien's displacement law. There is no need for contact or medium between the two bodies for the energy to transfer. A rough classification of infrared heaters is connected to wavelength bands of major emission of the energy: short wave or near infrared for the range from 780 nm to 1400 nm, these emitters are also named bright because still some visible light with glare is emitted; medium infrared for the range between 1400 nm and 3000 nm; far infrared or dark emitters for everything above 3000 nm.
The often orange glow is very important. Heaters without this glow work in a different spectrum and are not economically with the electricity they consume. The orange glow is not dangerous for the eyes, even when looking straight into the lamp.
Infrared heaters are usually classified by the wavelength they emit. Near infrared (NIR) or short-wave infrared heaters operate at high filament temperatures above 1800 °C and when arranged in a field reach high power densities of some hundreds of kW/m². Their peak wavelength is well below the absorption spectrum for water, making them unsuitable for many drying applications. They are well suited for heating of silica where a deep penetration is needed.
Medium-wave and carbon (CIR) infrared heaters operate at filament temperatures of around 1000 °C. They reach maximum power densities of up to 60 kW/m² (medium-wave) and 150 kW/m² (CIR).
Far infrared emitters (FIR) are typically used in the so-called low-temperature far infrared saunas. These constitute only the higher and more expensive range of the market of infrared sauna. Instead of using carbon, quartz or high watt ceramic emitters, which emit near and medium infrared radiation, heat and light, far infrared emitters use low watt ceramic plates that remain cold, while still emitting far infrared radiation.
Solamagic heaters use a Philips lamp to transmit the heat. This kind of heat lamp is an incandescent light bulb that is used for the principal purpose of creating heat. The spectrum of black body radiation emitted by the lamp is shifted to produce more infrared light. Many heat lamps include a red filter to minimize the amount of visible light emitted. Heat lamps often include an internal reflector.
Heat lamps are commonly used in shower and bathrooms to warm bathers and in food-preparation areas of restaurants to keep food warm before serving. They are also commonly used for animal husbandry. Lights used for poultry are often called brooding lamps. Aside from young birds, other types of animals which can benefit from heat lamps include reptiles, amphibians, insects, arachnids, and the young of some mammals.
The sockets used for heat lamps are usually ceramic because plastic sockets can melt or burn when exposed to the large amount of waste heat produced by the lamps, especially when operated in the "base up" position. The shroud or hood of the lamp is generally metal. There may be a wire guard over the front of the shroud, to prevent touching the hot surface of the bulb.
Ordinary household white incandescent bulbs can also be used as heat lamps, but red and blue bulbs are sold for use in brood lamps and reptile lamps. 250 watt heat lamps are commonly packaged in the "R40" (5" reflector lamp) form factor with an intermediate screw base.
Heat lamps can be used as a medical treatment to provide dry heat when other treatments are ineffective or impractical.
Electrically-heated infrared heaters radiate up to 86% of their input as radiant energy.[4] Nearly all the electrical energy input is converted into infrared radiant heat in the filament and directed onto the product by reflectors. Some energy is lost due to conduction or convection.
For practical applications, the efficiency of the infrared heater depends on matching the emitted wavelength and the absorption spectrum of the material to be heated.
For example, the absorption spectrum for water has its peak at around 3000 nm. This means that emission from medium-wave or carbon infrared heaters are much better absorbed by water and water-based coatings than NIR or short-wave infrared radiation.
The same is true for many plastics like PVC or polyethylene. Their peak absorption is around 3500 nm. On the other hand, some metals absorb only in the short-wave range and show a strong reflectivity in the medium and far infrared. This makes a careful selection of the right infrared heater type important for energy efficiency in the heating process.
Ceramic elements operate in the temperature of 300°C to 700°C (572°F - 1292°F) producing infrared wavelengths in the 2 - 10 micron range. Most plastics and many other materials absorb infrared best in this range, which makes the ceramic heater most suited for this task
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