The LEED Rating System Benefits And Uses

The LEED rating systems are comprehensive and can be simplified in this article for you to understand everything to it. This rating system can be categorically classified into five primary sections. This can be found in the likes of neighborhood development, homes, maintenance & operations, construction and interior design and construction & building design. With these categories, you will be able to understand the LEED rating systems and their benefits or uses as well.

LEED Systems For Neighborhood Development:

The neighborhood development is one of the most effective categories of the LEED systems. This application is used in the integration techniques of green buildings, urbanism and smart growth for neighborhood designs. As the name implies, the rating system is always applicable within a neighborhood structure or design.

Construction And Building Design:

In the building design and construction category, you will find 5 LEED rating systems. For old and new buildings passing through primary renovations, these rating systems are basically used as guidelines. Apartment buildings, office edifices, hospitals, and schools are great prototypes or models that can fall into this category.

Construction And Interior Design:

Another section of the LEED system is the construction and interior design. This also includes the LEED retail interiors and the LEED commercial interiors. This rating system is specially created for tenants that are leasing a given area of a bigger property or building. For instance, these LEED rating systems can be used for a Starbucks in a strip center or a company leasing commercial office space.

Maintenance And Building Operations:

Maintenance and building operations remain the fourth category to talk about in this content. This category simply includes the LEED for existing schools and buildings. These rating systems can be specially used by operators and owners of already existing buildings to measure maintenance and operations. The rating systems can be applied to buildings that need small improvements.

The LEED Systems For Homes:

The final section is the LEED systems for homes. This category is uniquely created or crafted for multi-family and single residential edifices, which are three stories or less. This category is also designed with respect to the Environmental Protection Agency’s great ENERGY STAR for building programs. It finally remains accessible to people as far back as 2008. If a residential building is up to three stories tall, then these multi-family and single LEED systems are applicable.


1. Indoor air quality is one of the great benefits of the LEED rating system. This means that air entering from the outside of your home is first filtered. It will help to get rid of contaminants, dust, pollen, and dirt.

2. Durability should not be ignored when talking about these rating systems. Helping designers to follow the durability schedule of a building is a great benefit of these rating systems. Home designers will be to choose good and durable materials to complete the building process.

3. Energy efficiency is one of the perfect uses of the LEED systems. To evaluate or check the efficiency of potential improvements, energy modeling often makes use of extensive processes to balance for your investment.

4. Quality control goes hand-in-hand with durability, as LEED systems ensure a certain level of quality is achieved. Which also helps the building remain functional and usable for longer.

5. Water efficiency ensuring leakages are avoided and that every bit of water is not wasted, thereby saving the environment.

6. Sustainability due to LEED systems ensures a building a sustainable for longer durations of time. With LEED systems, the sustainability, and durability work hand in hand.

7. Water management, with LEED systems, water management becomes easy and simple. Allow further control over the water flow and also ensuring minimal to no leakages happen.

Emerging Trends in Construction and Building

In recent days, many economies have experienced steady growth which is often accompanied by increased population. In such scenarios, the possible adjustments are equally and positively correlated improvements in construction and building. Arguably, the increasing population would require new housing, roads and other amenities such as water and health facilities which require the building and construction industries to up their game.

However, increased need for infrastructure does not necessarily mean enhanced abilities to deliver. For instance, raw materials such as timber and land for expansion among others get depleted every time a house, a road or a bridge is under construction. In response to the growing concern over the limited resources, the construction and building industries have come up with ways of achieving desired structural results using minimal resources in the best possible manner. In this regard, it is observed hat as opposed to the traditional way of building a single floor house, the construction and building industries have now adopted high rises to economize on space.

Even with the limited resources, it is understood that efficient and well-designed structures cannot be achieved with technology in absentia. Certainly, residential and commercial high rises and other forms of constructions would require a no room for error technical sophistication so as not to compromise safety and other environmental obligations of the industries and still keep the construction and building costs as low as possible. In consideration of the various constraints such as a time limits, poor weather conditions and the need for efficient use of raw materials, constructions, and building industries have come up with a new building technology known as prefabricated construction. The ingenuity in the prefabricated construction is that parts of the final structures as designed are built in a safer environment and then transported to the construction site where they are joined to form the final structure. In essence, this is meant to minimize risks and increase efficiency.

I don’t think the available skilled labor in the market is sufficiently fulfilling the needs of the construction and building companies. Research conducted on the same issue have confirmed overwhelmingly that shortage in skilled labor was the greatest challenge for the building and construction industries in 2016. In a similar forum, Tom Menk of BDO’s national real estate and construction practice has argued that companies have failed to bring into play the more productive and younger brains “… causing struggles to fill that gap in the workforce, which is coupled with the need across industries for companies to replace retiring baby boomers.”

Although more of a cost, expenditure on energy often comes into play when we think of construction and building. For example, an environmentalist would think of pollution and an engineer would come up with the necessary gadgets and technologies to do away with the pollution such as drainage pumping, and proper ventilation is thereby bringing in the need to spend some energy. In such applications, the energy requirements would eventually increase the overall cost of the construction. The industry has engaged the forces of nature such as gravity to reduce pumping costs where applicable.