![500mm(w) x 1100mm(h) Ellipse Black Towel Rail 500mm(w) x 1100mm(h) Ellipse Black Towel Rail](https://nwtdirect.co.uk/7467-large_default/500mm-x-1100mm-ellipse-black-towel-rail.jpg)
![500mm(w) x 1100mm(h) Ellipse Black Towel Rail 500mm(w) x 1100mm(h) Ellipse Black Towel Rail](https://nwtdirect.co.uk/7467-large_default/500mm-x-1100mm-ellipse-black-towel-rail.jpg)
This 500mm (w) x 1100mm (h) Ellipse Black designer towel rail has a high quality powder coated textured black finish with 30mm x 15mm horizontal bars for increased surface area and improved heat outputs. The ellipse towel rail can be installed on a central heating system, fitted as a stand alone electric unit or as dual fuel towel rail for maximum efficiency.
Data sheet
"The 500mm (w) by 1100mm (h) Ellipse Black towel rail is the perfect upgrade from a standard ladder rail. The black textured finish provides a modern yet classy addition of colour to any roomset. The larger horizontal tubes create a greater surface for heat performance and also provide a chunky, quality looking finish. This model would be ideal for medium sized rooms where you want to make a feature of the towel rail."
- Our range of designer towel rails are modelled in house and manufactured at our modern factory.
- The high heat output of our towel rails are achieved from the sourcing of high quality steel finished with robust powder coated paint finish.
- All our heat output figures (BTU'S) are listed at Delta T50.
- We have designed the bar patterns of the towel rails to optimise the volume of horizontal bars for heat output with spaces for functionality to allow you to hang your towels.
- All our towel rails are supplied with a wall mounting kit (including bleed valve and blank plugs)
- This towel rail is supplied with our 10 year manufacturer guarantee. (Euronorm BS EN 442).
NOTE: Please do not compare this product with cheap imports, which will be aesthetically less appealing, have a poor finish and a reduced heat output.
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°