15
Dec

How To Integrate A Renewable Energy Source Into A Building

In this modern-day and age, technological innovations prove to be beneficial in economic development. However, the biggest drawback is perhaps the continuous depletion of natural resources and energy sources. This is the main reason why more and more people are keen on seeking renewable energy sources that will be able to sustain the economy, without exhausting the earth’s natural resources.

Two of the most common renewable energy sources that can be integrated into buildings include wind and solar energy. This article will delve into how each of these energy sources is incorporated in building structures.

Wind Energy

Wind turbines are greatly beneficial in regions or locations where there are uniform and relatively constant wind flows. This is the reason why only a few wind turbines can be found integrated into buildings in an urban setting where winds are variable and quite turbulent. Nevertheless, renewable energy source experts are now making significant developments when it comes to wind energy integration in building structures.

For instance, wind turbine blades are now designed with lightweight materials and incorporated with aerodynamic principles, making them largely sensitive to small air movements. Through this, electricity can already be generated with a wind speed that is as low as a few meters per second. To enhance this, a wind turbine electrician may even leverage the use of permanent magnet generators to allow low cut-in wind speeds. The best part is that micro wind turbines such as these are already designed to be aesthetically pleasing, so as not to hurt the overall visual appeal of the property.

Solar Energy

Aside from wind energy, the use of solar energy is also becoming quite common in both residential and commercial properties in various countries. More often than not, solar panels are installed on the roof of these building structures. These panels are the primary component of the entire solar power system that harnesses the sun’s energy. However, energy conversion does not happen in the panels. Rather, the conversion process happens in another component of the system, which is the inverter.

Some households and commercial complex harness the sun’s energy for later use rather than using it immediately. In this case, the solar power system of the building includes a battery where the energy collected is stored for future conversion. This proves to be beneficial for structures used during evening operations. Rest assured that a solar power system has a typical lifespan of ten years, which can even expand to 25 years as long as it is properly maintained, making it not only environment friendly but a cost-effective solution for a building’s energy needs.

Solar

It is important to drive economic progress, but it is of equal importance to preserve the earth’s natural resources and maintain its healthy state. For this reason, consider the use of renewable energy sources such as wind and solar energy in your building structures to reduce your carbon footprint. In doing so, you are greatly contributing to making this world a better place to live for the future generation.