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Green Concrete Applications

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Concrete which is made from concrete wastes that are eco-friendly are called as Green concrete. Green Concrete is a term given to concrete that has had extra steps taken in the mix design and placement to ensure a sustainable structure and a long life cycle with a low maintenance surface. e.g. Energy saving, CO2 emissions, wastewater.

Today the word green is not just limited to colour, it represents the environment, which is surrounding us.

The goal of the Centre for Green Concrete is to reduce the environmental impact of concrete. To enable this, new technology is developed. The technology considers all phases of a concrete construction’s life cycle, i.e. structural design, specification, manufacturing and maintenance, and it includes all aspects of performance, i.e.

  • Mechanical properties (strength, shrinkage, creep, static behaviour etc.)
  • Fire resistance (spalling, heat transfer etc.)
  • Workmanship (workability, strength development, curing etc.)
  • Durability (corrosion protection, frost, new deterioration mechanisms etc.)
  • Thermodynamic properties (input to the other properties)
  • Environmental aspects (CO2-emission, energy, recycling etc.)

There are a number of alternative environmental requirements with which green concrete structures must comply:

CO2 emissions shall be reduced by at least 30 %.

  • At least 20 % of the concrete shall be residual products used as aggregate.
  • Use of concrete industries own residual products.
  • Use of new types of residual products, previously land filled or disposed of in other ways.
  • CO2-neutral, waste-derived fuels shall substitute fossil fuels in the cement production by at least 10 %.

In addition to the environmental goals there are a number of environmental intentions. Most important are:

To avoid the use of materials which contain substances on the Environmental Protection Agency’s list of unwanted materials, not to reduce the recycling ability of green concrete compared with conventional concrete and not to increase the content of hazardous substances in the wastewater from concrete production compared with wastewater from production of existing concrete types.

Different concrete types are tested for workability, changes in workability after 30 min., air-content, compressive strength development, E-modulus, heat development, homogeneity, water separation, setting time, density and pumpability. Furthermore, frost testing, chloride penetration and an air void analysis are carried out for the concretes in the aggressive environmental class.

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