Investigation of the effect of positive and negative crossfalls on road safety at roundabouts

Stanton, Vernon (2014) Investigation of the effect of positive and negative crossfalls on road safety at roundabouts. [USQ Project]

[img]
Preview
Text
Stanton_2014.pdf

Download (6Mb) | Preview

Abstract

Roundabouts are a common form of road intersection and can be used to allow self-regulating flow of traffic. As part of a roundabout there are generally three critical geometric considerations, namely, approach geometry, the
circulating carriageway and the departure geometry. In many instances this geometry is compromised and designed to slow traffic. Horizontal geometry is a significant aspect of the introduced compromise. Road Design Guides rely on the use of horizontal radii and crossfall to develop safe curves in road design. Consequently, the crossfall of a roundaboutʼs circulating carriageway becomes an important design consideration. The crossfall must be designed
to allow a smooth transition and adequate drainage performance of the circular carriageway. There are two common approaches to roundabout crossfall in Australia, positive and negative crossfalls. This dissertation
investigates and analyses the road safety performance of existing roundabouts with these different crossfalls to evaluate the safety benefits that each arrangement may offer.

Data was obtained for crashes at roundabouts in Queensland. The data spanned from 2001 to 2012 and was analysed to determine the trends, proportions and common causes of roundabout accidents. The data was limited to Queensland to highlight the differences in performance between
conventional, negative crossfall roundabouts and positive crossfall roundabouts, which are sufficiently scattered throughout Queensland.

Corresponding road design information such as horizontal radii, pavement crossfall and speed limits were obtained using aerial imagery, road design plans and crash reporting records. The data was used to contextualise the
crashes and ultimately determine the role that the type of crossfall at the roundabout played in the crashes.

Crash data and review of literature indicated five major crash types at roundabouts, with four types linked to the crossfall at the roundabout. Crash included approach rear end, entry/circulating, single vehicle and
overturned crashes.

Analysis of the data concluded that speed zoning played a significant role in all crash types, with crossfall a secondary affectation of speeds. It was found
that positive crossfall sites were overrepresented in approach rear end crashes and overturned crashes. Negative crossfall sites were overrepresented in single vehicle and entry/circulating crashes. The results obtained were unevenly distributed against crossfall and statistically indicate that crossfall is a significant affectation of accidents at roundabouts.

More in-depth research is required into specific case study sites and crashes. Consideration could include traffic volumes and crash severity at the different
roundabout crossfall sites. This will aim to validate and extend on the literature and crash data analysis in this dissertation.


Statistics for USQ ePrint 27236
Statistics for this ePrint Item
Item Type: USQ Project
Item Status: Live Archive
Additional Information: Bachelor of Engineering (Civil) project.
Faculty / Department / School: Current - Faculty of Health, Engineering and Sciences - School of Civil Engineering and Surveying
Supervisors: Somasundaraswaran, Soma
Date Deposited: 09 Sep 2015 05:15
Last Modified: 09 Mar 2016 02:57
Uncontrolled Keywords: roundabouts; road safety; accidents; crossfall; traffic flow; circular carriageways; Queensland
Fields of Research : 09 Engineering > 0905 Civil Engineering > 090507 Transport Engineering
URI: http://eprints.usq.edu.au/id/eprint/27236

Actions (login required)

View Item Archive Repository Staff Only