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How to Design for Optimal Thermal Comfort (And Why it Matters)

Article written in collaboration with ArchDaily

Have you ever found yourself losing a good night’s sleep due to an overly warm room? Or wearing four jackets and a scarf just to tolerate your office’s frigid air conditioning? Truth be told, you can’t please everyone when it comes to adjusting an indoor climate, and there is always that one unfortunate individual who ends up sacrificing their own comfort for the sake of others.

Evidently, there are no ‘universal standards’ or ‘recommended comfort ranges’ in designing building systems, since athletes training in a gym in Mexico will not feel comfortable in an interior with the same building systems of a nursing home in Denmark, for instance. Which is why, if we were to briefly define ‘thermal comfort’, it is the creation of building systems that are adapted to the local environment and functions of the space, cooperatively.

So how can we design for optimum thermal comfort?

One of the first elements to consider while designing for thermal comfort is creating an efficient building exterior. A building’s envelope acts as a filter between the outdoor climate and indoor environment, stabilizing the atmosphere inside. Properly managing the envelope results in a well-balanced interior environment and reduces the use of mechanical systems, all of which contributes to a more sustainable structure. It is essential to consider the following when designing: Insulation, Solar Gain, Thermal Inertia, and Air Ventilation.


building envelope


Since managing the parameters of the building’s envelope can greatly affect the interior thermal environment, ensuring high insulation properties on both, the opaque and glazed areas, reduces heat gain in the warm seasons and conserves heat during the cold ones. Solar gain (how much heat is generated as sun is absorbed in the building) is controlled by the building’s design and orientation, opaque-to-glazed areas ratio, heat reflection percentage, insulation level, and amount of nearby shading elements.


building systems


Thermal inertia (how slowly the temperature of a building reaches that of its surroundings) is largely controlled by the materials and type of structure used in the architecture. These components react with the exterior environment ultimately ensuring that the interior remains cooler - or warmer, depending on the location and need - for a longer period of time. Bricks and stones are considered high thermal inertia material, which is why these materials are usually used in hot environments to keep the interior cool for a longer period of time. In colder regions, low thermal inertia materials (such as wood) are commonly used so that the interiors heat up faster during the cold.


thermal scanner


As for air ventilation, managing the air exchange and circulation with the outdoors is crucial for a comfortable atmosphere. Whether this is done by mechanical or natural ventilation, stable air currents release humidity and provide an infiltrated air flow.


thermal comfort

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