Friday, July 18, 2014

How are modular buildings eco-friendly

How are modular buildings eco-friendly
With the demand for eco-friendly buildings at an all time high, modular technology offers an energy efficient solution to traditional construction techniques. Utilising sustainable materials, a low-energy manufacturing process and recyclable components, prefabricated buildings are specially designed to have minimal impact on the environment. It’s now easier than ever to lead an energy efficient lifestyle, with sites such as Springfield providing high quality, sustainable modular buildings to suit your every need.
Here are just some of the green credentials exclusive to modular buildings:

Prefabricated buildings are designed to be dismantled, re-modeled and relocated. The ready-made units can be used and re-used countless times throughout their lifespan, significantly reducing the amount of waste materials taken to landfill.
Reusing an entire building, refurbishing old modules or retaining some of the same components for multiple-use can effectively eliminate the need to use new resources and preserve the energy that would be used to construct a new building. If you’re in need of a convenient and flexible temporary building solution, hiring a second-hand modular building can significantly reduce environmental disruption.
Quicker construction period
Modular buildings are constructed off-site in a controlled factory environment, facilitating a more time efficient construction process. While traditional construction projects can take months or even years to complete, some modular buildings can be assembled in as little as 24 hours, significantly reducing environmental impact on the construction site.
 An exclusive feature of modular construction is that whilst the units are being made in the factory, site work can take place simultaneously, allowing for a much short construction period. Building off-site can effectively minimise the amount of contaminants, waste and carbon dioxide emitted from on-site construction. Pre-assembling techniques can also allow for rapid installation, reducing the amount of vehicle-use for transporting materials to and from the site.
Due to the flexible nature of modular technology, it’s easy to make modifications and amendments to an existing building, meaning minimal disruption to both the building itself and the surrounding environment. It is also not uncommon for modular buildings to come fully fitted with electrics, plumbing and heating facilities before they leave the factory, meaning that on-site disruption is kept to a minimum.
Sustainable building practices
Modular manufacturing involves resource-efficient building practices and optimised material usage, contributing to lower carbon emissions. Unlike traditional building processes, ready-built modules are constructed on cleaner sites with controlled conditions that protect the materials from damage and deterioration, enhancing their overall quality. Any issues regarding high levels of corrosive substances or moisture existing within the building components are therefore reduced.
The high-grade construction materials used during the manufacturing process are designed to have a longer lifespan than traditional buildings, meaning that they will not need to be rebuilt or repaired several years down the line. Even if the building is altered or reconfigured when taken to a new site, the energy consumption is still significantly lower than that of a new build.
Green technologies
Once assembled on site, you can further enhance the environmental performance of your building with a variety of green facilities. Solar panels, high-efficiency heating systems, insulated walls, floors and roofs and large windows to make use of natural light are all eco-friendly techniques that help to significantly reduce the energy consumption of the building and minimise running costs.
The modules are designed to continue delivering environmental benefits until the end of their lifespan. The robust, airtight structures ensure thermal efficiency, improve indoor air quality, reduce the risk of condensation, minimise carbon emissions and facilitate long lasting performance. 

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