The comfort and energy efficiency of your home can be greatly impacted by the heating system you choose. The width of the aluminum radiator sections is one important factor to take into account. These areas are essential to the effective distribution of heat in your house. Making wise decisions about insulation and heating can be aided by your awareness of this factor’s significance.
Because of their excellent heat conduction properties, lightweight design, and durability, aluminum radiators are a popular choice for home heating systems. The space between each section’s front and rear panels is referred to as the radiator sections’ width. This dimension directly affects how well the radiator warms your living area and how much heat it emits.
There are a number of considerations when choosing the width of aluminum radiator sections. The size of the room or space you want to heat is an important factor. Wider radiator sections are usually needed in larger rooms in order to distribute enough heat evenly throughout the area. On the other hand, narrower radiator sections may help smaller rooms stay cool and comfortable by preventing overheating.
Your home’s overall heating needs should be taken into account. If you have very cold rooms or live in an area with severe winters, choosing broader aluminum radiator sections will guarantee sufficient heating capacity. On the other hand, narrower sections might be adequate in milder climates or well-insulated homes and still provide enough warmth.
Additionally, the ideal width of aluminum radiator sections can be influenced by the layout and design of your house. Radiators with wider sections may be needed in rooms with high ceilings, lots of windows, or inadequate insulation to make up for heat loss. Conversely, narrower radiator sections may be advantageous in well-insulated rooms with low heat loss in order to reduce unnecessary energy use.
In conclusion, when choosing a heating system for your home, the width of the aluminum radiator sections is an important consideration. You may take well-informed decisions that support comfort, energy efficiency, and a comfortable living space by being aware of how this dimension affects heat distribution and efficiency.
- Dimensions of aluminum heating radiators of different brands and models
- What you need to know about radiator sizes and what they affect
- Dimensions of aluminum radiators of different manufacturers and their models
- Aluminum radiators ROVALL
- Aluminum radiators Climatic Control Corporation LLP
- Aluminum radiators of the company Fondital
- Aluminum radiators by Faral S.p.A.
- Global aluminum radiators
- Torex aluminum radiators
- Aluminum radiators Rifar
- How to calculate the number of sections of the radiator
- Popular
- Dimensions of heating radiators in height and width, how to calculate
- Dimensions of heating radiators
- Low radiators
- High radiators
- Video on the topic
- HOW TO DIVIDE ALUMINUM RADIATOR SECTIONS LESSON 2
- HOW TO DIVIDE ALUMINUM RADIATOR SECTIONS LESSON 1
Dimensions of aluminum heating radiators of different brands and models
Many useful things are made nowadays from aluminum. Here, radiators made of this metal alloy have already become commonplace in our homes; they are elegant, light, and heat up rapidly. Nonetheless, it’s important to understand and choose aluminum heating radiator dimensions with competence when selecting these heating devices. Let’s examine the various sizes and how to select them appropriately.
What you need to know about radiator sizes and what they affect
The separation between the axes is the first significant dimension. Most frequently observed in the selling of aluminum radiators, which have a 35 or 50 cm gap between the upper and lower collector.
This indicator is also available in the following models: 80, 70, 60, 40, and 20 cm.
An aluminum radiator’s length can be practically infinite. The radiator’s capacity increases with length. A specific number of sections are taken in order to reach the necessary power level. The size and capacity of the aluminum radiator section, as well as the required capacity, determine the radiator’s overall length.
An installation kit is needed to connect the radiator to the heating system’s pipes.
- 1. Brackets (2 or 4 pieces) for hanging the radiator on the wall.
- 2. Special tap for bleeding excess air (Maevsky tap).
- 3. Key for the tap
- 4. Radiator bushings, which have a diameter of 3/4 or 1/2. They can be of left or right type.
- 5. Radiator plugs (blind plugs).
- 6. sometimes also dowels for fixing the brackets.
Mounting kit for radiators made of aluminum.
Casting or extrusion are the two manufacturing methods available for aluminum alloy radiators.
1. Casting increases the device’s dependability and durability. The sections in this instance are cast as a single unit and put together to form a single radiator. At the very end, the radiator’s lower section is welded.
2. The heated aluminum alloy is forced through a die, which is a metal plate with holes, using extrusion equipment. This makes it possible to produce the aluminum long section in the required shape. It should be divided into sections the same size as the radiator once it has cooled. The top and bottom portions are then fused together. The radiator cannot have parts added to or removed in this instance; its length cannot be changed. They are available even though you are unlikely to find them for sale.
Dimensions of aluminum radiators of different manufacturers and their models
The sizes of assembled radiators as well as aluminum radiator sections are displayed in the tables below.
Aluminum radiators ROVALL
This Sira Group company produces aluminum radiators with 50, 20 or 35 centimeter collector spacing. The installation kit (available separately) should come with plugs, wall mounting brackets, nipples with gaskets (to join sections), adapters, and a Maevsky tap.
- The maximum working pressure is 20 bar.
- Test pressure of the device – 37.5 bar.
- Water temperature limit – 110 °C.
Rovall Alux 200 – 200 mm axis spacing characteristics:
* All information is derived from manufacturers’ official sources.
Aluminum radiators Climatic Control Corporation LLP
This company invented the excellent heat-producing BiLUX AL radiators, which are made with consideration for all the subtleties of individual heating systems. Their cross-section of the vertical tube is optimally designed, and they have a very large surface area. China is home to the radiator’s manufacturing facility. The collector axes can be spaced 30 cm apart (BiLUX AL M 300) or 50 cm apart (BiLUX AL M 500).
During the manufacturing process, a unique welding technique is used to join the injection-molded upper parts to the bottom. The batteries undergo both mechanical and chemical treatment after assembly. Next, their durability and airtightness are tested. Painting the radiators requires multiple steps. The electrostatic field affects them after cleaning. The epoxy resin enamel is sprayed on at this point. Upon reaching a high temperature, the product’s surface undergoes polymerization.
BiLUX AL radiator ends are designed in a way that makes it possible to use a unique ring as a gasket. The material used in its construction completely seals the joints. Cadmium plating covers the nipples. Leaks are totally removed. It is as simple as possible to clean the battery’s sections, regardless of how many times you have done so.
* All information is derived from manufacturers’ official sources.
Aluminum radiators of the company Fondital
This company makes radiators called Calidor Super. Both the Russian climate and that of the CIS countries are catered to by them. During production, Russian standards GOST R RU as well as European standards EN 442 are taken into consideration. 9001.5.1.9009 is the number. High-pressure molding is the production technique used. There are two steps in the painting process. Anaphoresis is used to apply a protective layer of enamel first, and then powder enamel is added to enhance the product’s aesthetic appeal. The mounting kit is an additional purchase. These are the brackets, blind plugs, adapters, and Maevsky faucet.
The separation of the axes:
- 35 cm – model S4, which has a section depth of 9.7 cm and four side ribs.
- 50 cm for both the S4 model (with four ribs and a depth of 9.7 cm) and the lighter S3 model (with three ribs and a depth of 9.6 cm).
- Working pressure limit – 16 bar.
- Bursting pressure limit – 60 bar. 24 bar pressure tests are carried out at every stage of manufacture.
- The water temperature limit is 120 °C.
Radiator characteristics Calidor Super 350 S4: section has 96 mm of depth, four side ribs, and an intercenter distance of 350 mm.
* All information is derived from manufacturers’ official sources.
Aluminum radiators by Faral S.p.A.
This company manufactures exceptionally robust radiators, known as FARAL Green HP, specifically for Russia. These radiators have a working pressure tolerance of 16 atmospheres. They’re made through injection molding. They are coated with a layer of zirconium, which is resistant to washing away and penetrates deeply into the aluminum surface, both on the inside and the outside. As a result, when the battery comes into contact with water, no gas is released. Electrochemical corrosion is absent.
The depth of FARAL Trio HP radiators is 9.5 cm, while FARAL Green HP radiators are 8 cm deep. Additionally, there are 35 or 50 centimeters separating the collectors’ axes. Standard bleed valve, plug adapters, silicone gaskets, self-tapping screws with plugs, and brackets are all part of an additional installation kit that can be purchased separately.
- Working pressure limit – 16 bar.
- Test pressure limit – 24 bar.
- Water temperature limit – 110 °C.
FARAL Green HP 350 radiator dimensions and features: 350 mm axis spacing
* All information is sourced directly from manufacturers.
Global aluminum radiators
This company’s identically named radiators are suitable for usage in both private homes and apartments. Their distinctiveness and grace of design define them. Global VOX and Global ISEO are the most widely used models. Each of them is capable of having a 35 or 50 cm gap between the axes. Included is a mounting kit (separately sold).
- Maximum working pressure – 16 bar.
- Pressure test pressure – 24 bar.
- Hot water temperature limit – 110 °С.
The Global VOX 350 radiators’ dimensions and features, including their 350 mm center distance:
* All information obtained from authorized manufacturer sources.
Torex aluminum radiators
The company uses a casting process to create its Torex aluminum sectional batteries. Their distinctive front section’s design, which creates captivating light transitions, sets them apart from one another. 7.8 cm is the depth of the radiators in models with a center-to-center distance of 35 cm, and 7.8 and 7 cm for models with a center-to-center distance of 50 cm. They can consist of six to fourteen even sections. The radiator’s price does not include the mounting kit.
- Working pressure limit – 16 bar.
- Test pressure limit – 24 bar.
- Temperature limit – 110 ° C.
- Optimal pH of water – 7-8 (6,5 – 8,5 is possible).
Center distance (350 mm) is one of the Torex B 350 radiators’ dimensions and features.
* All information is derived from manufacturers’ official sources.
Aluminum radiators Rifar
The company makes aluminum radiators, including BASE models with center distances of 500, 350, and 200 mm and ALP models with a center distance of 500 mm that improves heat output and appearance. Alum models are specially designed radiators that can be used as oil-fired electric heaters in addition to conventional heating systems. The primary benefit of the manufacturer’s exclusive radiator development, Flex, is that it allows the radiator to be given the required radius of curvature.
- Working pressure not more than 20 atm;
- The maximum temperature of the coolant is 135 0 C;
- pH of water 7 – 8,5;
Radiator dimensions and attributes. Radiators made with Rifar Base typically have between four and fourteen sections:
Center of the circle (mm)
How to calculate the number of sections of the radiator
There is a quick and easy way to do it. We need the normative power needed to heat one square meter of the space in order to accomplish this. These three are the variations.
- If in the room the ceilings have a normal height (from 2.5 to 2.7 meters), the wall to the outside – one, the window – one. Standard power – 100 watts.
- If the ceilings are the same, there are two outward walls and one window. Normative power – 120 watts.
- If the same height of ceilings, walls outside – two, windows – two. Rated power – 130 watts.
Let’s now multiply the area of the room by the standard power of our variant. If the space has larger windows (like a bay window) or higher ceilings, add an additional correction factor of 1.1. Consequently, we obtain the total radiator power.
The radiator’s passport lists the heat capacity for just one section. The resultant total power must be divided by it. Fractional numbers are rounded upward.
For instance: The room is 16 square meters in size, with one window that is a bay window and one exterior wall. The FARAL Green HP 500 radiator has a 180-watt heat capacity per section.
Multiply 1.1 times and 16 square meters by 100 watts.
1760 (watts) is equal to 100 x 16 x 1,1.
Divide this number by 180 to determine the radiator’s section count.
9,778 pieces (1760 / 180).
Compounded, we obtain ten segments.
Last updated on December 20, 2016
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In understanding the width of aluminum radiator sections for heating and insulation purposes, it"s crucial to balance efficiency and aesthetics. The width of these sections impacts both the heat output of the radiator and its visual appeal within a space. Opting for wider sections can enhance heat distribution and efficiency, ensuring better warmth throughout the room. However, wider sections might not suit every room"s layout or aesthetic preferences. It"s essential to consider factors such as the size of the room, insulation levels, and the desired heating output when choosing the width of aluminum radiator sections. By striking the right balance between functionality and design, homeowners can optimize both comfort and style in their heating systems.
Dimensions of heating radiators in height and width, how to calculate
The owners of these apartments or houses must choose which batteries to buy and how big to place the heating radiators when setting up their own heating system.
The ensuing fundamental parameters need to be considered:
- dimensions of heating radiators;
- the degree of heat output of one section;
- The maximum working pressure for which these devices are designed.
Because batteries are available in a wide variety of products, there is a significant dispersion of basic battery characteristics among the products on the market today.
Dimensions of heating radiators
The most common heating device models have a standard height of 500 millimeters, with the inter-axial distance on the supply lines measured at that same distance. These are the same batteries that were commonly found in city apartments roughly 20 years ago.
Radiators made of cast iron. An example of a typical device is the MS-140-500-0,9 model.
The specification includes a list of cast iron radiator dimensions:
- length of one section – 93 millimeters;
- depth – 140 millimeters;
- height – 588 millimeters.
The dimensions of a radiator with multiple sections are easily calculated. Add 1 centimeter for every 7–10 sections in the battery, accounting for the thickness of the vapor gaskets. Cast iron radiators with a side supply always need to be flushed, so if the heating radiator is to be installed in a niche, the length of the flushing tap must be considered. At a temperature differential of 70 degrees between the hot coolant and the room air, one section generates 160 watts of heat flow. Nine atmospheres is the highest operating pressure.
Radiators made of aluminum. The parameters of the aluminum radiators that are currently available on the market vary significantly, even with the same inter-axial piping spacing (for further information, see "Dimensions of aluminum radiators, section volume, preliminary calculations").
Aluminum heating radiators typically have the following dimensions:
- The length of one section is 80 millimeters;
- depth 80-100 millimeters;
- height – 575-585 millimeters.
One section’s depth and fin area directly affect how much heat it produces. Usually, it falls between 180 and 200 watts. The majority of aluminum battery models operate at 16 atmospheres. Test heaters at a pressure 1.5 times higher, or 24 kgf/cm^.
Aluminum radiators have the following characteristic: their coolant volume is three, occasionally even five times lower than that of cast iron radiators. Thus, siltation and deposit formation are inhibited by the rapid flow of hot water. radiators with two metal surfaces. The steel core in these devices has no effect on the size or appearance of the heating radiators, but it does greatly raise the maximum working pressure value. Regretfully, the bimetallic battery’s growing strength comes at a steep price. Furthermore, a large number of customers cannot afford the price of such a product as it stands.
The following are the dimensions of the bimetallic heating radiators section:
- length 80-82 millimeters;
- depth – from 75 to 100 millimeters;
- Height – minimum 550 and maximum 580 millimeters.
A single bimetallic section produces about 10–20 watts less heat than an aluminum section does. The heat flux is between 160 and 200 watts on average. Because of the steel, the working pressure can reach 25–35 atmospheres, and during testing, it can reach 30–50 atmospheres.
It is best to use pipes that are equally strong as radiators when organizing the heating system. Using durable appliances becomes completely unnecessary otherwise. The only piping used for bimetallic radiators is steel.
Low radiators
The following benefits of having a small center-to-center distance are associated with radiators:
- they can be placed under a low sill;
- They have maximum heat output per unit area.
Radiators made of cast iron.
Sections of heating radiators with MS-140M-300-0.9 manufacture sizes:
- length 93 millimeters;
- depth – 140 millimeters;
- height – 388 millimeters.
Cast iron radiators have a lower heat output due to their smaller size; at a working pressure of 9 kgf/cm², one section produces 106 watts of heat. The capacity of a section of a cast-iron radiator of this type is significantly higher than that of foreign equivalents, which include cast-iron products with inter-axial distances between 200 and 350 millimeters.
Radiators made of aluminum. In low-quality aluminum batteries, both produced domestically and imported, there is a significant variance in the spacing distance values. 150, 300, and even 450 millimeter heating radiator sizes can be accommodated. Given that the maximum section length is 40 millimeters, the device appears slender and unique. The height measurements of low aluminum radiators begin at 200 millimeters. Many models have a depth of 180 millimeters, which makes up for the absence of the other two parameters.
The heat output for each section varies from 50 watts at minimum to 160 watts at maximum. The fin area of one section is the decisive factor. Simultaneously, the variations in size have a negligible impact on the operating pressure because low aluminum devices are tested at 24 atmospheres and are intended for 16 atmospheres. radiators with two metal surfaces. The heating radiators they possess all have dimensions that are typical of aluminum radiators. The range of heat output is the same. You can find aluminum low radiators on the market that can produce between 80 and 140 watts of heat per section. 25 to 35 atmospheres is the working pressure.
Two subtleties distinguish bimetallic low radiators like the one in the picture:
- Among heating devices there are radiators not with solid steel cores, but with steel tubes placed between aluminum collectors. Their working pressure, as specified by the manufacturers, is usually 12 or 16 atmospheres;
- they often do not have vertically arranged channels and in case of lateral connection can be heated from the collectors due to the heat conductivity of aluminum. Circulation of the coolant is provided by the last section, as it is a flow-through section.
High radiators
Tall and narrow radiators are preferred because of their narrow width when the choice of radiator size is restricted because there is not enough room to fit a standard device.
Radiators made of cast iron. Designer devices that are unusually tall for Russian consumers can be found among foreign products, in contrast to domestic cast iron products with standard dimensions. Consider the Demrad Retro line of cast iron radiators.
These are their measurements:
- Section height with a width of 76 millimeters varies from 661 to 954 millimeters;
- depth – 203 millimeters.
They are tested at 13 atmospheres, and their working pressure is 10 atmospheres.
The largest sections can produce up to 270 watts of heat. Simultaneously, narrow heating radiators can have heights up to 2400 millimeters. There is a maximum working pressure of six atmospheres. The heating radiator’s substantial heat output is enhanced by its large height. It is even capable of reaching over 433 watts when there is a 70 degree temperature delta.
Radiators made of aluminum. The supply line for tall aluminum radiators is often placed at the bottom to hide the pipes.
Radiators with two metal surfaces. Since the tall and narrow bimetallic radiator models are essentially original design structures, all of their dimensions are non-standardized. In general, these products are typically monolithic and are rarely sectional.
The radiator model Sira RS-800 BIMETALL, which has the following specifications, is an illustration of one of these heating devices:
- section height 880 millimeters;
- depth 95 millimeters;
- length 80 millimeters.
4 kgf/cm³ is the operating pressure, and 6 kgf/cm² is the test pressure. It is important to remember that this type of radiator is not meant for central heating. Only vertical channels contain its cores (see also "Vertical heating radiator – stylish and efficient").
The model of a specific heater for a given purpose and area must be identified before determining the heating radiator’s size. It is important to keep in mind that the power of the individual sections that make up a battery determines its heat output rather than its size. The decision is explained in the video, taking into account the heating radiators’ dimensions.
Section width (mm) | Heat output (W) |
80 | 100 |
100 | 130 |
For effective insulation and heating in your house, aluminum radiator section width selection is essential. The size of the room, the necessary heat output, and the overall heating system have all been discussed as influencing factors in this article. Given that every home has different heating requirements, it is obvious that there is no one-size-fits-all solution.
It is crucial to comprehend the connection between section width and heat output. Wider sections can distribute heat more evenly over larger spaces, but narrower sections might offer more accurate temperature control and faster reaction times. Optimizing energy efficiency and comfort requires striking a balance between these factors.
Additionally, aluminum radiators’ construction and material greatly influence how well they work. Superior heat transfer and durability can be achieved by premium aluminum radiators with precision engineering, assuring long-term dependability and affordability.
A homeowner’s living space constraints and aesthetics should be taken into account when choosing the section width for aluminum radiators. Wider sections may balance larger areas, while slimmer profiles can be more aesthetically pleasing and perfect for spaces with little wall space.
In conclusion, careful consideration of a number of factors, such as room size, heat output requirements, system compatibility, material quality, and aesthetic preferences, is required when deciding on the width of an aluminum radiator section. Through careful consideration of these variables, homeowners can improve the coziness, effectiveness, and general coziness of their living areas.