Circular Architecture: Importance and benefits

Cmyk-arquitectos

The circular architecture is closely linked to sustainable architecture And that is a truth without half measures!

Basically, the impact that buildings have on society, and above all, on nature, is taken very seriously.

In addition, he is concerned with the construction structures and also for efficiency of construction materials.

This concept has evolved significantly over the last few years; to the point that circular architecture also foresees what will happen when the useful life of a building ends.

Without a doubt, it is a very interesting philosophy that is worth studying and understanding within the architecture and construction industry.

WHAT IS CIRCULAR ARCHITECTURE?

Circular architecture can be defined as the construction of buildings that adhere to a sustainable, efficient and environmentally friendly model.

It also lays its foundations in the recycling or use of certain construction materials (instead of throwing them away and generating even more waste).

The construction industry is one of the most polluting in the world (considering the constant emissions of gases and waste that result from it).

However, circular architecture seeks to reverse these negative effects and promote architectural projects that are focused on energy savings, recycling and reuse.

One of its subsequent purposes is to give a second life to the buildings, or to some of their main components, such as their pipes, pumping systems, etc.

The circular architecture is based on a cyclic model that seeks to optimize the useful life of each material. In that way resources are optimized constructive and the reuse of many elements is promoted.

This model gives great relevance to materials discarded from other works (these may have been recycled or converted to be used successfully again).

MAIN FEATURES OF THIS MODEL

Circular architecture has very particular, interesting and distinctive characteristics. These are some of them:

  1. Eliminate or reduce the use of non-renewable materials, or those that require a lot of energy to be extracted.
  2. Promotes the use of materials that represent a minimal ecological and environmental impact.
  3. The constant circulation of resources promotes energy efficiency, the recycling of some raw materials and a better waste management.
  4. Construction systems become more sustainable.
  5. This circular model challenges the linear system of the current economy (which is based on the extraction, use and disposal of certain elements and construction materials).
  6. It makes sure to optimize the use of all the components of the building, while redesigning elements that can be used successfully in the future.
  7. Circular architecture focuses on the construction of buildings that are more energy efficient.
  8. The circular economy inspired this type of architecture. Therefore, it challenges the conventionalism that everything has a beginning and an end, and opts for more returnable and sustainable constructions.

WEIGHT FACTORS IN CIRCULAR ARCHITECTURE

circular architecture

Studying the keys to circular architecture is essential when sizing this concept with greater clarity and efficiency.

In this sense, we would like to share with you some important factors of this deeply environmentalist architecture:

1. Design of an adaptable home

The design of new buildings must be fully customizable to the requirements and needs of its future owners or tenants.

It is crucial that buildings gradually adapt to the changes or transformations that these people will experience throughout their lives.

This change in the way of conceiving and designing buildings extends its useful life more effectively.

2. Use of recyclable materials

The incorporation of recyclable materials in circular buildings is one of their critical success factors.

It also allows the use of manufactured materials (from other waste generated in the industry).

The selection of more organic, natural or biodegradable materials reduces gas and waste emissions, as well as energy expenditure in the construction sector.

The most ideal thing is to work with materials such as wood or stone, since they have a greater recycling capacity.

The construction industry is responsible for 40% of carbon emissions globally.

Additionally, it is one of the main producers of waste and waste in the entire world. Hence the execution of strategies, or standards, such as the Passivhausare so relevant. These homes must reduce energy consumption to a minimum, or better yet, they must generate your own green energy.

3. Building life cycle analysis

This analysis consists of design buildings focused on their life cycle. Therefore, it must include both its future reuses and its eventual demolition process.

It also implies knowing the impact that these new buildings will have on the environment.

What will be its footprint on an environmental scale? How much will it cost from a sustainable point of view? These are some of the questions that must be raised during this analysis.

Analyzing the life cycle of a building is very useful for identify carbon footprint that would be generated, as well as the energy needed for its construction. Those who carry it out must be familiar with the extraction and obtaining processes of the materials used. Additionally, they must know their manufacturing, use, repair, maintenance and recycling data.

4. Rehabilitation incentive

In this context, rehabilitation is synonymous with reuse and reduction of waste in relation to new construction.

This process also reduces energy consumptionor the emission of gases that are harmful to the atmosphere. The goal is to preserve a portion of the structure, rather than proceed to tear it down or completely demolish it.

At the same time, it is important to point out that rehabilitation processes can improve the quality of life of the people who will live in the new buildings.

To do this, they must have thermal and acoustic comfort systems, while improving air quality dramatically.

BENEFITS OF CIRCULAR ARCHITECTURE

Below you will learn eight great benefits of circular architecture:

  1. Reduce consumption energy in buildings.
  2. Improve management of construction waste.
  3. Reduces pollution levels atmospheric and environmental.
  4. Encourage development of the circular or returnable economy.
  5. It gives prominence to recycled materials and materials of natural origin.
  6. Promotes flexible housing design.
  7. Gives a second life to materials that have been discarded in previous constructions. Therefore, they acquire a new application at the end of their useful life.
  8. It is largely supported by the sustainable architecture.

THE ARCHITECTURE OF THE FUTURE

In short, it must be emphasized that circular architecture is based on the recovery, reuse and recycling of the construction elements. Therefore, it challenges the linear scheme that we all know; the same one that is based on the creation, extraction and elimination of many materials and resources.

Without a doubt, it is a complex self-feeding system that reduces the consumption of polluting raw materials, and in turn, optimizes waste management significantly.

If this topic has caught your attention and you would like to delve deeper into it as soon as possible, we invite you to contact to CMYK Architects.

Its team of professionals will offer you professional and comprehensive advice. Likewise, it will clarify your doubts and give you updated and cutting-edge information.

Lastly, don't forget to follow our page Facebook. This way you will stay informed about new trends in Architecture, Design and Construction.

Leave a Reply

Your email address will not be published. Required fields are marked *