Finnish Association of Construction Product Industries: Maximizing the carbon sink of concrete structures

Kierrätysasema
© Photo: Finnish Association of Construction Product Industries

The subproject “CO2ncrete Solution” studies existing building stocks’, in practise concrete structures’, CO2 absorption potential during their use and recycling periods.

The targets of subproject “CO2ncrete Solution” are to research:

  1. How much Finlands existing concrete structures and building stock can uptake CO2 during their use period
  2. The total quantity of CO2 that concrete can uptake in recycling period.
  3. To research in real circumstances the best ways to maximize the potential carbon sink in recycling of concrete

One of the main barriers to utilize recycled concrete is negative attitude of decision makers both in a communal and state level. Concrete association of Finland will produce and publish practical guidance for planning and implementing the use of concrete structures and materials as a CO2 sink in order to increase the use of recycled concrete.

The reaction causing carbon dioxide sequestration, i.e. carbonation of concrete, has been known for decades, but it has not been taken into account as a factor decreasing atmospheric carbon dioxide content. Carbonation of concrete can be significant for limiting of the climate change, because those parts of existing concrete structures and building stock surfaces in contact with air, absorb carbon dioxide continuously.

During the production process of cement limestone is decomposed to calcium oxide and carbon dioxide. According to the recent international research projects a significant part of carbon dioxide emitted in the production process of cement can be absorbed by concrete during the service life. During recycling concrete is usually crushed, which multiplies the specific surface of concrete in contact with air and the rate of absorption of carbon dioxide.

As an acidic gas carbon dioxide reacts with the alkaline cementitious matrix during carbonation of concrete so that carbon dioxide is a permanent part of cementitious matrix.

Because the environmental conditions and types of concrete in Finland are different compared with other countries, it is necessary to study carbon dioxide sequestration in the Finnish conditions.

Timetable

Throughout the project

Additional information

Jussi Mattila, Finnish Concrete Industry, tel. +358 400 637 224

Tiina Kaskiaro, Finnish Association of Construction Product Industries, tel. +358 50 466 0297

Tommi Kekkonen, Finnish Association of Construction Product Industries tel. +358 50 350 8820

forename.surename@rakennusteollisuus.fi

Published 2019-05-07 at 9:37, updated 2019-05-22 at 13:11