Ben Welter - Wednesday, September 13, 2017
A good piece of framed art can light up a room. Now, to some degree, it can also heat and cool it.
Tempassist, a wall decor system developed by Larson-Juhl of Norcross, Ga., and Phase Change Energy Solutions of Asheboro, N.C., is designed to maintain comfortable temperatures and reduce energy costs.
Here’s how it works: BioPCM, a biobased phase change material made by PCES, is enclosed in multi-layer film mats and placed in each frame, behind a large piece of art. The PCM absorbs excess heat when temperatures rise above 72 degrees F. When room temperature falls below 72, the PCM releases the heat.
PCES says the system, which is now aimed at commercial customers such as hotels, hospitals and office buildings, offers a minimum 40 percent reduction in HVAC run times and 50 percent reduction in system on/off cycles, using temperature-control materials lasting more than 85 years.
Larson-Juhl is bringing Tempassist to market under a partnership/licensing agreement with PCES.
Doug Doolen, PCES’ Tempassist expert, answered questions about the product by email:
Q: How did the idea for this product originate?
A: In 2015, Phase Change Energy Solutions, Inc. (Phase Change) had a tech partner group introduce us to Larson-Juhl, a Berkshire Hathaway Company with a hundred-year history in manufacturing innovative custom picture frame moldings and wall décor all over the world.
In early discussions, Phase Change presented ENRG Blanket and BioPCM as a plant-based phase change material that can work in any orientation inside the building envelope. As an example, Phase Change mentioned use in a large coffeehouse as a place where ENRG Blanket could be incorporated behind the wall décor and pictures they had on display. This would help buffer thermal loads during peak hours associated with people and long lines and thus drive energy savings.
LJ asked if the same concept could be applied to any room with wall décor that they supply across the world.
Phase Change produced scale-model replicas of various rooms and validated proof of concept. This was then scaled to demonstrate performance with different material densities, conductivity and performance.
Full-size room/multiple-room testing commenced late in 2015 to prove room savings, distribution within the room and finally performance. This led to several successful full-building tests which showed significant energy savings that is consistent (often exceeding) the advertised 25-35% HVAC energy savings.
Q: Which PCM is used? C23? C25? Or a new PCM altogether?
A: BioPCM is the material powering Tempassist. It is specifically tuned (transition temperature and mass) to perform to this specific application. Larson-Juhl has also incorporated various features and construction elements that enhance overall performance.
Q: What's your take on the potential market size?
A: Market size is quite large when you consider the number of retail and commercial structures with multiple room/floor configurations.