Alternative Energy in Construction

Alternative Energy in Construction Sustainable Building Practices and Materials

Alternative energy is an integral element of any sustainable construction plan, helping reduce dependence on fossil fuels and combat climate change.

Renewable sources of energy such as solar and wind power are becoming more and more popular. Furthermore, they’re becoming more efficient and cost-effective to use than traditional fossil fuels.

Solar Power

Solar power is a renewable source of energy that can be used to power buildings and other structures. The most common form of solar energy comes in the form of photovoltaic (PV) panels.

However, there are many other ways that building projects can incorporate solar energy into their construction methods. For instance, heavy machinery like loaders and excavators could be powered by solar cells for greater efficiency during operation.

These machines offer a valuable way to reduce the environmental impact of construction and reduce carbon emissions. These type of alternative energy solutions can be employed across all sectors of the construction industry.

Solar power is a rapidly expanding industry that presents more job prospects for construction firms. Private solar companies are actively recruiting and partnering with construction firms to install their systems, an arrangement which benefits both parties involved.

Wind Power

Wind energy is becoming more and more popular with construction companies. It can be utilized to power equipment on site and reduce emissions generated by the industry.

Wind energy production begins with the rotation of a rotor blade. Moving air creates a low-pressure pocket on one side, pulling it towards its upwind side – thus creating rotation and electricity production.

This is an ideal alternative to gas-powered generators on construction sites, particularly those located far from electrical grids. Furthermore, it helps reduce emissions caused by fuel-based transportation.

Wind power’s price point is lower than fossil fuels and can be generated locally, helping to decarbonize the economy and reduce carbon emissions. This is essential as fossil fuel reserves around the world are becoming depleted, necessitating us to find a long-term solution.

Biofuels

Biofuels are fuels derived from biological raw materials that can be used instead of petroleum. As a renewable energy source, they help reduce greenhouse gas emissions and lessen our dependence on foreign oil imports.

Bioenergy technologies use cellulosic feedstocks like wood chips, agricultural and municipal waste, perennial grasses or algae-based resources as energy sources. These processes reduce carbon emissions while producing fuels which can be transported at lower costs than petroleum-based products.

Construction workers could potentially find employment in the biofuels industry by constructing processing plants that convert multiple crops into liquid fuels. They may even be needed to modify existing gas stations so they can accommodate higher blends of biofuels.

Plant managers and operators are essential in operating or tending equipment that regulates chemical changes or reactions at a fuel processing facility. Their job entails making sure all operations adhere to safety requirements as well as federal laws.

Electrification

Electrification is the transition of devices, systems and individuals’ energy dependence away from fossil fuels toward electricity. It is an essential decarbonization strategy designed to reduce GHG emissions in transportation, buildings and industry, increase efficiency and air quality while creating new jobs in the renewable energy sector.

Building owners and developers should assess the feasibility of switching systems and appliances from fossil fuels to all-electric alternatives. For instance, heating and cooling equipment could be replaced with efficient electric heat pumps in order to dramatically reduce a facility’s carbon footprint.

Benefital electrification is an effective solution to meet climate goals, but it requires an intentional design process that takes into account building age, electrical capacity and physical space allocations. By taking a thoughtful approach to electrification strategies in a project, energy efficiency increases, costs come down and air quality and safety are improved.