Engineering Clay Bricks – Keep Your House Cool In Summer

Well, we have something amazing for you. Learn all about Engineering Clay Bricks – keep your house cool in summer. A few Columbian architects developed special clay bricks that are keeping your house pretty cool in summer. In the following video, Ted Hyman shares experiences and looks at cooling options when constructing the next generation of buildings.

Although I’m writing this article now summer is here, you may want to learn all about it and profit next year. It’s an ancient concern for the people to get a cooling environment within their homes in severe heat strokes. Living in the time where people died of heat strokes because of no essential measures to keep themselves protected from the harsh summer effects, is thinkable.

This issue is addressed by many architects many times, in different ways. An effort made by “Emerging objects corporations” developed the 3d printed bricks that claimed to provide the cooling effect by using the ancient techniques of “Evaporative cooling”, used by Egypt and Persia.

However, in the US the same technique was developed in early 1906. A major issue with the designed was that keeping sufficient water required for its efficient cooling effect was almost impossible and the hardness of water was another problem to be solved. Now, another solution is at hand: Clay Bricks

Columbian architects Miguel Nino and Johana Navarro designed clay bricks that keep your house cool in summer. The design is called BT (Bloque Termodisipador or heat sink Bricks). It is an asymmetrical clay brick in a perforated form. It is shaped in such an angle that makes it capable to protect itself from solar radiation.

As solar radiation is the major heat transmission from the sun, these bricks show their effectiveness. The perforations allow stored heat to dissipate and the air to pass through it. Clay bricks keep your house cool in summer. It’s all about engineering dynamics and applications related to a more sustainable world.

Traditionally, due to the horizontal surface of bricks, the channels of bricks act as a bridge to transfer heat inside, as the heat can only move unidirectionally. But in contrast, BTs are interrupted by a series of smaller subchannels that reduce the entrance rate of heat inside them. Students who learn all about the world of Plastic Engineering may also apply their knowledge in the field of making building blocks as there is so much symmetry.

Another benefit provided by these bricks is the reduction of the noise/sound effect from outside. These bricks break up and deflect the sound waves coming inside. Its unique design allows architects to express or design in three-dimensional layout which also allows for a reduced wastage of material and construction time.

Here, it seems that the designers target the concerns of summer requirements only because when the temperature drops below zero, would anyone afford further cooling? Off course, not. So a major issue could be their effect in the winter season.

Would BT offer the same effect of cooling in winter as in the summer and if yes, then how could this its effect be overcome? Let’s hope that designers will come up with countermeasures. However, to some extent, it hits the target of effective cooling measure. BT Clay Bricks Keep Your House Cool In Summer!