Radiant Panel KIT for Heating Halls and Industrial Buildings
42% savings in operating costs
Pleasant working environment
Environmental protection
Payback within 5 years
KIT Radiant Panels represent an efficient solution for heating halls, production areas and other large-volume buildings. It is a ceiling-mounted hydronic radiant system that transfers heat directly to people, floors and building structures rather than primarily heating the air.
Thanks to the principle of radiant heat transfer, the system ensures even temperature distribution throughout the space and reduces temperature stratification, which is typical of warm-air heating systems. The system is suitable for connection to various heat sources and allows both full-area and zone heating of specific parts of a hall.
Why choose Radiant panel KIT?
Installing KIT radiant panels in an industrial hall ensures efficient, even and energy-saving heating of large spaces. KIT radiant panels are designed for operation in industrial environments where energy efficiency, reliability and long service life are key priorities.
Main benefits of the solution:
Technical parameters
|
Basic element: |
aluminum module 330 mm wide |
|
Construction: |
steel tube Ø 18 mm, embedded in aluminum sheet |
|
Heat insulation: |
30 mm thick with aluminum foil |
|
Panel assembly: |
modules are hung next to each other on common beams |
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Panel lengths: |
2, 3, 4, 6 m |
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Joining panels into strips: |
press sockets DN 18, press socket type V |
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Connecting pipes in panels: |
parallel, half parallel – solved with a pressed distributor |
Heat transfer material
Control options
Detail KSP KIT
- aluminum heating surface
- heating pipe
- heat insulation
- top aluminum sticker
- common suspension beam
- carbine
- ceiling suspension system, e.g. cable or knotted chain with tension screw
Panel dimensions – length
Radiant panel KSP KIT – 2 m 
Radiant panel KSP KIT – 3 m 
Radiant panel KSP KIT – 4 m 
Radiant panel KSP KIT – 6 m
Panel dimensions – width and hanging points
Radiant panel KSP KIT I – 6 m 
Radiant panel KSP KIT II – 6 m 
Radiant panel KSP KIT III – 6 m 
Radiant panel KSP KIT IV – 6 m
Weights and numbers of hangers
| Width [mm] | Weight [kg] | Load per S.P. | Water volume | Number of suspension points per panel | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Panel L = 2 m | Panel L = 3 m | Panel L = 4 m | Panel L = 6 m | [kg] | [l/m] | Panel length [m] | |||||||
| Operation | Construction | Operation | Construction | Operation | Construction | Operation | Construction | 2 a 3 | 4 a 6 | ||||
| 330 | 9,3 | 7,7 | 13,7 | 11,3 | 18,3 | 15,1 | 27,2 | 22,4 | 2,4 – 6,7 | 0,8 | 4 | 6 | |
| 720 | 19,9 | 15,3 | 28,7 | 22,5 | 38,6 | 30,2 | 56,7 | 44,8 | 4,9 – 13,8 | 1,6 | 4 | 6 | |
| 1110 | 29,9 | 23,0 | 43,1 | 33,8 | 57,9 | 45,2 | 84,6 | 67,1 | 7,3 – 20,7 | 2,4 | 4 | 6 | |
| 1500 | 39,8 | 30,6 | 57,4 | 45,0 | 77,3 | 60,3 | 112,9 | 89,5 | 10,0 – 27,6 | 3,2 | 4 | 6 | |
Operating weight includes the panel, standard crossbars and water content. Suspension components and headers are not included, as their weight depends on project-specific design and dimensions.
Heating output of panels – ČSN EN 14037-2
| Δt [K] | KIT I – 330 | KIT II – 720 | KIT III – 1110 | KIT IV – 1500 | ||||
|---|---|---|---|---|---|---|---|---|
| Panels | Headers | Panels | Headers | Panels | Headers | Panels | Headers | |
| [W/m] | [W/pair] | [W/m] | [W/pair] | [W/m] | [W/pair] | [W/m] | [W/pair] | |
| 10 | 30 | 5 | 60 | 9 | 91 | 14 | 121 | 19 |
| 12 | 38 | 6 | 75 | 12 | 113 | 18 | 150 | 23 |
| 14 | 45 | 7 | 90 | 14 | 135 | 21 | 181 | 28 |
| 16 | 53 | 8 | 106 | 17 | 159 | 25 | 212 | 34 |
| 18 | 61 | 10 | 122 | 20 | 183 | 29 | 244 | 39 |
| 20 | 69 | 11 | 138 | 22 | 208 | 34 | 277 | 45 |
| 22 | 78 | 13 | 155 | 25 | 233 | 38 | 310 | 51 |
| 24 | 86 | 14 | 172 | 28 | 258 | 42 | 344 | 56 |
| 26 | 95 | 16 | 189 | 31 | 284 | 47 | 379 | 62 |
| 28 | 103 | 17 | 207 | 34 | 310 | 51 | 414 | 69 |
| 30 | 112 | 19 | 225 | 37 | 337 | 56 | 450 | 75 |
| 32 | 121 | 20 | 243 | 41 | 364 | 61 | 486 | 81 |
| 34 | 131 | 22 | 261 | 44 | 392 | 66 | 522 | 88 |
| 36 | 140 | 24 | 280 | 47 | 419 | 71 | 559 | 94 |
| 38 | 149 | 25 | 298 | 51 | 447 | 76 | 596 | 101 |
| 40 | 159 | 27 | 317 | 54 | 476 | 81 | 634 | 108 |
| 42 | 168 | 29 | 336 | 57 | 504 | 86 | 672 | 115 |
| 44 | 178 | 30 | 355 | 61 | 533 | 91 | 711 | 122 |
| 46 | 187 | 32 | 375 | 64 | 562 | 97 | 750 | 129 |
| 48 | 197 | 34 | 394 | 68 | 592 | 102 | 789 | 136 |
| 50 | 207 | 36 | 414 | 72 | 621 | 107 | 828 | 143 |
| 52 | 217 | 38 | 434 | 75 | 651 | 113 | 868 | 150 |
| 54 | 227 | 39 | 454 | 79 | 681 | 118 | 908 | 158 |
| 55 | 232 | 40 | 464 | 81 | 696 | 121 | 928 | 161 |
| 60 | 258 | 45 | 515 | 90 | 773 | 135 | 1030 | 180 |
| 65 | 283 | 50 | 567 | 100 | 850 | 150 | 1134 | 200 |
Δt = (tm1 + tm2) / 2 – ti where: tm1 [°C] heat transfer medium temperature – supply | tm2 [°C] heat transfer medium temperature – return | ti [°C] internal design temperature
Pressable headers
Header 2+1, 128 mm – 213.059 
Header 4+1, 295 mm – 213.062 
Header 8+1, 684 mm – 213.064 
Header 4+0, 295 mm – 213.060 
Header 4+0, 350 mm – 213.061 
Header 8+0, 684 mm – 213.063 
Header 6+1, 521 mm – 213.068 
Header 12+0, 1079 mm – 213.065 
Header 12+1, 1079 mm – 213.066
KIT Project Galery
You can find more photos of our installations in our gallery on Flickr.com.
We are here to help
Want to help with a project? Contact our technical support.
