Tag Archives: radiant heating

Green Building Elements: Warmboard

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<img src="/files/111/warmboard.jpg" alt="" width="350" height="194" align="top" />
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Radiant heating is a popular option in green buildings. Many green buildings feature it because it is a more efficient, and more comfortable, method of heating. If a building doesn't require air conditioning, it may be possible to eliminate ductwork altogether, or at least use a much smaller system that is sized for air conditioning. And even in buildings where air handling is still necessary, the systems that push the air around can be run less frequently because they are needed only to provide fresh air, and don't need to take care of the heating as well. Radiant heating systems don't cause the air to be dried out in the same manner that heated forced-air systems tend to do. Most of all, radiant heating is comfortable because it is warmest at floor level and slightly cooler at higher levels, matching the human desire for warmth for the feet, and less for the head.
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A recent <a href="http://jetsongreen.typepad.com/jetson_green/2007/09/solar-decathlon.html">blog post by Jetson Green about the National Solar Decathalon</a> reminded me of an intriguing product that can be used for in-floor radiant heat systems. Warmboard is a specialty subflooring for use in radiant-heated buildings that doesn't require a concrete slab to embed the radiant tubing. This makes it especially useful for multi-story buildings where a concrete slab floor may be less desirable. Warmboard is much lighter than a corresponding concrete slab, meaning that less structural material is needed to support the floor. It also does not need curing time, unlike a concrete slab, which is another factor that makes it appealing for use with modular and pre-fab construction. <br />
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<a href="http://www.warmboard.com/">Warmboard</a> is a plywood material that is slightly thicker than typical subflooring plywood. It has regular channels cut into it that the radiant heating system tubing can be laid into. On top of this, an aluminum plate is formed to the surface, providing a transfer surface to uniformly distribute the heat from the tubing across the floor.</p>