| Model: | VDSF636B/N/G |
|---|---|
| Brand: | VODA |
| Origin: | Made In China |
| Category: | Home Supplies / Household Metallic Products |
| Label: | - |
| Price: |
US $22
/ pc
|
| Min. Order: | 1 pc |
| Last Online:15 Dec, 2020 |
Key Benefits
Increased Efficiency: Warm air is circulated directly into the living area rather than having most of the stove’s heat rise immediately to the ceiling, thereby increasing the heating efficiency of your stove.
Fuel Savings: Testing carried out in collaboration with a leading Canadian university has proven that using a VODA stove fan results in fuel savings of up to 18%. For more information contact us, e-mail: voda@voda-tek.com
‘No Fuss’ Operation: The VODA stove fan starts automatically and adjusts its speed with the stove temperature. As the stove heats up, the VODA stove fan runs faster to move more warm air into the room. As the stove burns down and cools, the VODA stove fan automatically shuts off.
Costs Nothing to Operate: Using the heat from the stove, the VODA stove fan is the most economical way to effectively circulate warm air. No cables, plugs or batteries are required.
Unique Blade Design - Safe and Efficient: The unique VODA stove fan blade is designed to deliver a broad cross-section of gentle warm air movement to avoid uncomfortable drafts. The blade is our most efficient blade yet, moving more air at a wider range of stove temperatures.
Advantages
Just Put It On Top Your Stove: The fan will start to move hot air into your room once the stove gets hot.
Cut Your Fuel Bill: Warm your room up to 41% faster and save up to 18% on fuel costs.
Improved Model: High performing, the ultra quiet model that makes your stove even more efficient.
Self-starting And Self-regulating: Spins and pumps out hot air as soon as 65℃ is reached.
Timeless Design: made from anodized aluminum that will not rust or decay
How do VODA stove fans work?
These fans have a thermoelectric module which acts as a small generator to power the fan’s motor. When this generator module experiences a heat differential between its top and bottom surfaces, it pumps out electricity. The base of the fan heats the bottom surface of the module, while the top of the module is kept cooler by the fan’s top cooling fins.
