Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer

Heat_Powered_Stove_Log_Burner_Fan_2018_Mini_Three_Blade_Design_Thermometer_01_qrc
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer

Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer
New innovative three blade design for 2018 at only 19.5cm high. Highly efficient brush motor which is smoother with a unique blade design generating up to 160cfm more than any other fan on the market. Also receive a magnetic thermometer. This fan generates its own electricity using the heat from the stove. Fan output is 160cfm to help circulate warm air throughout the room. Fan speed varies automatically with the temperature of the stove. The unique anodized blades have been designed to deliver a very broad thermal current as opposed to a small cone of concentrated air. The fan should be positioned at the rear of the stove for maximum output. Has a low start temperature of 80degrees C. The fan is 19.5cm in height. The base is 12cm x 8cm. Any questions please ask. The item “Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer” is in sale since Tuesday, January 26, 2016. This item is in the category “Home, Furniture & DIY\Fireplaces & Accessories\Heating Stoves”. The seller is “sisterdidi” and is located in KINGS LYNN, Norfolk. This item can be shipped worldwide.
  • Type: Coal-Burning Stove
  • Material: aluminum alloy
  • MPN: NEAT4
  • Brand: EcoFlow
  • Room: Living Room
  • Height: 19.5cm

Heat Powered Stove\Log Burner Fan 2018 Mini Three Blade Design+Thermometer