3 Benefits of Performance Based Fire Safety Design

Even though there were fewer cases of fire incidents last year, that does not mean the percentage will remain the same in the coming years. To guarantee the safety of your building and everyone inside, consider investing in a performance-based fire design approach and mass engineered timber in Singapore

The following are the benefits you can gain from it. 

1. REDUCE POST-CONSTRUCTION ENERGY COSTS

A construction project that uses a performance-based fire safety design approach can determine how much energy the entire building will need in the future. Such a case is crucial since the usage of HVAC, air conditioners, and other electrical systems contribute to the lifetime cost that a building owner will need to shoulder. 

2. PROMOTE THE USE OF DAYLIGHTING

In a performance-based fire safety design approach, occupants no longer have to worry about having too much natural light in their space since experts will analyse each unit to ensure it will have enough daylight. As a result, occupants will not consider using additional cooling devices such as air conditioners.

3. LOWERS CARBON EMISSION

All buildings are one of the top global greenhouse gas emission contributors. It is not surprising since each unit uses tons of machines every day to live and work comfortably, which can change once a performance-based fire safety design approach has been implemented throughout the building, 

Are You Convinced to Invest in A Performance Based Fire Safety Design Approach?

If you answered yes, and you’re looking for a dependable team of professionals who can make all of these benefits a reality, contact SHEVS IFT Consultants. 

With their over 25 years of experience, you can get reassured that they can keep your property safe from any fire hazard once they have implemented this approach and conducted a wind-driven rain simulation.

Contact SHEVS IFT Consultants at +65 6812 1399 or leave a message on their website if you are interested in investing in their performance-based fire safety design approach.

Even though there were fewer cases of fire incidents last year, that does not mean the percentage will remain the same in the coming years. To guarantee the safety of your building and everyone inside, consider investing in a performance-based fire design approach and mass engineered timber in Singapore

The following are the benefits you can gain from it. 

1. REDUCE POST-CONSTRUCTION ENERGY COSTS

A construction project that uses a performance-based fire safety design approach can determine how much energy the entire building will need in the future. Such a case is crucial since the usage of HVAC, air conditioners, and other electrical systems contribute to the lifetime cost that a building owner will need to shoulder. 

2. PROMOTE THE USE OF DAYLIGHTING

In a performance-based fire safety design approach, occupants no longer have to worry about having too much natural light in their space since experts will analyse each unit to ensure it will have enough daylight. As a result, occupants will not consider using additional cooling devices such as air conditioners.

3. LOWERS CARBON EMISSION

All buildings are one of the top global greenhouse gas emission contributors. It is not surprising since each unit uses tons of machines every day to live and work comfortably, which can change once a performance-based fire safety design approach has been implemented throughout the building, 

Are You Convinced to Invest in A Performance Based Fire Safety Design Approach?

If you answered yes, and you’re looking for a dependable team of professionals who can make all of these benefits a reality, contact SHEVS IFT Consultants. 

With their over 25 years of experience, you can get reassured that they can keep your property safe from any fire hazard once they have implemented this approach and conducted a wind-driven rain simulation.

Contact SHEVS IFT Consultants at +65 6812 1399 or leave a message on their website if you are interested in investing in their performance-based fire safety design approach.