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Greenhouse gases and carbon dioxide

According to PAS 2080:2016 Carbon Management in Infrastructure, greenhouse gases (GHGs) are the gaseous constituents of the atmosphere, both natural and anthropogenic, that absorb and emit radiation at specific wavelengths within the spectrum of infrared radiation emitted by the Earth’s surface, the atmosphere, and clouds. The six main greenhouse gases (UNFCC Kyoto Protocol) include carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), hydrofluorocarbons (HFCs), perluorocarbons (PCFs) and sulphur hexafluoride (SF6).

The term ‘emissions factor’ characterises the amount of greenhouse gases emitted relative to a unit of activity, expressed as ‘carbon dioxide equivalent’ (written variously as; CO2e, CO2eq CO2eq etc). This is the unit for comparing the radiative forcing of a greenhouse gas to carbon dioxide and is calculated using the mass of a given GHG multiplied by its global warming potential, a factor describing the radiative forcing impact of one mass-based unit of a given greenhouse gas relative to an equivalent unit of CO2 over a given period of time.

Throughout PAS 2080 and other documents, the term ‘carbon’ (e.g. operational carbon, embodied carbon, capital carbon, user carbon) is often used as sort-hand of GHSs which may be misleading if out of context.

An example of the use of CO2e is for conventional Portland cement (CEMI). This is made by heating limestone and clay and then grinding the resulting material, known as clinker, into a fine powder. The process of heating and decomposing the limestone releases about 860kg CO2e for every tonne of cement produced (Low Carbon Concrete Routemap, April 2022). This is partly down to them chemical process as well as the fuel used in heating the limestone.

‘Embodied carbon’ is a common term used and relates to the CO2e built into the fabric of, for example, a structure. This relates to the amount of carbon emitted during the construction through extraction of raw materials, the manufacturing and refinement of materials, transportation, installation and disposal of old supplies. In contrast ‘operational carbon’ is the amount of CO2e emitted once the building is in use.


Acknowledgement: The Concrete Society