Abstract:
Evidence of climate change, such as rising sea levels and higher average temperatures, has made society
become increasingly carbon conscious in recent years. Therefore, carbon estimating is becoming prominent
and this research explores methods of quantifying embodied carbon of different soil stabilisation methods.
This research aims at evaluating the different methods of soil stabilisation for the remediation of previously
developed, brownfield sites, using a dual currency approach of investigating both cost and carbon.
Therefore, the effect of using different cementitious binders such as Pulverised Fuel Ash (PFA) and Ground
Granulated Blastfurnace Slag (GGBS), in lieu of Ordinary Portland Cement (OPC) was investigated.
Primary data, in the form of Bills of Quantities, was collected from a civil engineering contractor who has
extensive experience in the land remediation sector in the UK. This enabled cost and carbon rates to be
applied to the work items, to estimate in terms of cost and carbon inputs. This data was analysed using
descriptive statistics to investigate if there is a correlation between cost and carbon inputs.
The study revealed that to stabilise soil, soil matrix changes from one binder to another, whereas a higher
content of GGBS and PFA to lime in the alternative methods than there is for OPC. In lieu of OPC and
PFA, GGBS was identified as the most cost effective and lowest carbon emitting cementitious binder.
However, though PFA also signified a carbon saving, PFA was comparatively costly. Further, a perfectly
positive correlation lies between the mean elemental unit rates for costs and carbon.