Carisa "Nixie Bath" Polished Anodised Aluminium Vertical Designer Radiators & Chrome Towel Bar
The Nixie aluminium radiator with its unique alternating profiles is not only functional for heat transfer but also fits perfectly into modern interiors.
Data sheet
- Outer Finish
- Polished Anodised Aluminium
- Height (mm)
- 1500mm
- Width (mm)
- 205mm
- Depth (mm)
- 115mm to 135mm
- Design
- Nixie
- Colour Family
- Silver
- Material
- Aluminium
- Output BTUs
- 1499
- Output Watts
- 440
- Tube Bar Pattern
- 2 Sections + 1 Chrome Towel Bar
- Fixing Kit
- Supplied with Wall Mounting Brackets, Bleed Valve & Blank Plug
- Guarantee
- 10 Years
- Pipe Centres
- 295mm (Side) or 40mm (Underside Entries)
- Socket Width
- 1/2" BSP
- Fuel Type
- Central Heating
- Brand
- Carisa Radiators
Why are CARISA Radiators at the forefront of Designer Heating technology?
With a wealth of experience in the manufacture of reliable heating solutions the Carisa range takes this to a whole new level of unrivalled performance and beauty. The striking collection has been created, crafted and hand-finished by experts, using only the finest quality materials available.
"Nixie Bath" Designer Polished Anodised Aluminium Vertical Radiators + x1 Chrome Towel Bar
Available Models:
Nixie Bath 205mm(w) x 1500mm(h) - 2 Sections + Chrome Towel Bar (1499 BTUs)
Quality & Performance:
- Manufactured from High Quality Aluminium.
- All products tested to EN442, the harmonised European Standard.
- Tested to 10 bar of Pressure.
- 10 Year Manufacturer Guarantee.
- Polished Anodised finish.
- Standard 1/2" BSP threaded valve connections.
- Supplied with Brackets, Blanking Plugs, Airvents, Fixing Screws and Raw Plugs, Bleed Key.
Returns:
Please Note: Due to the bespoke nature of the CARISA range of products any returns would be subject to a standard Restocking Fee.
Some of our other product ranges.
1380mm (w) x 500mm (h) "Brecon" Chrome Oval Tube Horizontal Radiator (20 Sections)
This is just a guide for reference only, rooms may require more than one radiator. If this applies to you, divide the required output between the number of radiators required. All figures given are for Delta T 50°