Buildings contribute a great deal to carbon dioxide emission which is a greenhouse gas. Greenhouse gases greatly contribute to negative global climate change.
A building's carbon footprint is the amount of CO2 it produces during its operations and activities. One of the trending concepts in building design that is becoming imperative is managing and reducing carbon footprints as part of a low carbon strategy. Residential structural engineer in Dallas plays a huge part in reducing carbon-dioxide equivalent (CO2e) atmospheric emissions. Materials such as concrete, steel, and masonry used in a building or infrastructure projects create a large bloom of CO2e emitted from the construction. Structural engineers can help by using these important and necessary materials in a responsible way, making adjustments in their design, specification, and selection, based on an awareness of these emissions.
Building green is one of the best strategies to temper negative climate change. When constructing a new home, you can reduce the carbon footprint in several ways. There are several benefits of reducing the carbon footprint including cost benefits and revenue opportunities.
Some of the significant advantages of reducing a building's carbon footprint reduce its running costs improves employee morale and raises property values. Buildings become environmentally responsible, profitable and healthier places to live and work in.
Here are a few tips to help you reduce a building’s carbon footprint to a great extent.
It is important to evaluate and measure a building designs carbon footprint as early as possible. An experienced and knowledgeable residential structural engineer in Dallas will help you find alternate layouts and materials that will be less harmful to the environment. Part of this early planning involves a life cycle assessment in which the flows of energy, water, materials and waste in and out of the system is considered to understand the environmental impact.
Heating, lighting and air conditioning are some of the vital reasons behind carbon emission. If proper heating, lighting and air conditioning system is incorporated along with efficient operations and scheduled maintenance of such systems, it can reduce carbon footprint. For example, most buildings are ventilated with outside air to keep the inside air fresh and odor free. This ventilation runs all of the time, even when it is not needed. This wastes energy because the outside air needs to be heated or cooled. You can install a low-energy humidifier instead of a typical electric steam humidifier as it will reduce a building's carbon footprint. Another way to save electricity and energy is, equipping a building with sensors can measure indoor air quality and determine how much ventilation is needed.
Continuous insulation helps top save energy and reduce the carbon footprint. It not only provides thermal, air, water and vapor control layers in one system but also simplifies the construction process.
When constructing a new home, it is very important to use state-of-the-art lighting and also optimize daylight. Lighting accounts for a great deal of energy consumed in a building, so if you can utilize daylight and reduce energy consumption, it can lead to low carbon footprint and also reduce energy bills at the same time. Properly executed daylighting strategies can reduce carbon footprint to a great extent.