Use Of The Impression Pile To Reduce Carbon Emissions

Urban development in congested cities requires a better exploitation of the available surface, leading to taller structures. These buildings are usually founded on piles that have to be increased in dimension to accommodate the larger loads. Consequently, both the cost and the carbon footprint of the pile foundations rises. An alternative option is to improve pile performance by enhancing shaft capacity, which is commonly the most important factor in determining the ultimate capacity of a pile constructed in a clay soil subjected to axial load. For piles in stiff clays, such as London Clay, the soil/pile friction may be increased by profiling the side walls of a bored cast in situ pile with small discrete “impressions” such that the latter form nodules on the shaft of the concreted pile. The results from centrifuge and full scale field tests showed that the impression pile represents a viable technology to enhance the shaft capacity as they provide an increase in capacity of 40%. Alternatively, reduced length impression pile can be used. This paper explores the implications of the impression pile technology on the potential carbon saving.