Thermorossi Ilaria Bordeaux Fireplace
The wood stove fireplace in the most classic meaning of the word, equipped with a large combustion chamber. The innovative SMOKE BY PASS device drastically reduces the release of smokes in the room at every load of wood.
Established in a province renowned for its metalworking tradition, and open to modern technology. Thermorossi has been working with success in the heating sector for more than 50 years, and is now one of the leading and advanced European manufacturers of wood, pellets and solar heating technologies.
Our products are constantly submitted to strict tests by autonomous agencies in order to evaluate their manufacturing features, their efficiency and CO emissions, and the quality of manufacturing process itself.
Every manufacturing phase, from laser-cutting to bending, welding and assembling forms an integral part of our company heritage. Thermorossi manufactures according to the more modern technologies and every product is complying to the strictest European standards.
Thermorossi Ilaria Bordeaux Fireplace Specifications –
1 – Flue outlet Ø 130mm
2 – Enamelled cast iron top
3 – Smoke by-pass technology reduces the smoke outlet to the living zone before every wood load
4 – Precious handmade majolica exterior panels by master craftsmen
5 – Tertiary air modulation devices
6 – Cast iron firebox door
7 – Cast iron firebox (HxWxD – 313x362x384)
8 – Loading opening (WxH – 313×344)
9 – Cool touch door handle
10 – Secondary air modulation devices
11 – Primary air modulation devices
12 – Riddle grate lever to shake ash into the ash pan
13 – The refined raised base facilitates cleaning operations
DIMENSIONS (HXWXD) 1011X511X573
WEIGHT (KG) 171
HEATABLE AREA (M²)*A*C 100
EFFICIENCY UP TO MAX (%)*A 85,1%
ENERGY CLASS A+
POWER TO THE HEART (KW)*A 13,1
RATED POWER (KW)*A 11,1
RADIATION (KW)*A 13,1
WOOD HOURLY CONSUMPTION (KG/H)*A 3,1
VENTILATION -PRIMARY AIR FROM OUTSIDE AVAILABLE
CO EMISSIONS (MG/M³; 13% OF O2)*A 590
CO EMISSIONS (MG/M³; 10% OF O2)*A
DUST EMISSIONS (MG/M³; 13% OF O2)*A 12,6