Capital Equipment News

Camps Bay Drive is a major scenic route within the City of Cape Town in South Africa and provides access to Camps Bay and Hout Bay. Based on the project brief and geometric analysis, Camps Bay Drive required widening to safely accommodate the high volumes of tourists and MyCiti bus traffic.

To minimise the impact on traffic, the design brief targeted construction outside the summer peak tourist season and also required investigation into shortened construction periods. The key role was played by Wirtgen cold recycling technologies.

WG photo Jobsite Camps Bay Drive 00004 PR

At the Ndabeni Roads and Stormwater Depot in Maitland, the Wirtgen cold recycling mixing plant KMA 200 quickly and reliably produced the BSM mix.

The South African metropolis has large volumes of Reclaimed Asphalt (RA) stockpiled from numerous maintenance works undertaken around the City. The material has generally been used for hard stand areas and shoulder construction. In order to reuse the high quality material, WorleyParsons was tasked to investigate a more efficient and sustainable use for thee material. For this reason, the use of a foamed bitumen technology was investigated and the base layer on Camps Bay Drive was constructed using 100% RA as a foamed Bitumen Stabilise Base (BSM) base layer.

Originally, the project consisted of localised road widening to accommodate the proposed MyCiti buses. However, due to the large volume and sizes of the proposed buses, a geometric analysis resulted in the entire portion of the road being widened by 1,4 m. The proposed pavement design involved a light rehabilitation with the widening area requiring full depth construction however during construction, numerous weak horizons were discovered along the road. The pavement design implemented for construction involved the following:

• 50 mm AE-2 Asphalt Surfacing
• 200 mm Foamed BSM 1 Base
• 150 mm G5 Subbase, natural gravel
• 150 mm G7 Selected Subbase, pioneer rock layer
• In-situ

The project was divided into three construction sections. Section 1 from Geneva Drive to Prima Avenue, Section 2 from Prima Avenue to Rontree Avenue and Section 3 from Rontree Avenue to Houghton Road. In order to ensure more uniformity and better quality of the mix, a static mobile mixing plant was specified for production of the BSM.

WG photo Jobsite Camps Bay Drive 00010 PR

Immediately after paving with a Vögele paver and compaction with Hamm rollers, parts of Camps Bay Drive could be reopened to traffic.

Proper recipe decisive

Power Construction was appointed to carry out the construction of the works with Milling Techniks carrying out the production of the BSM using their Wirtgen KMA 200.

During construction, the stockpiled RA was sent for technical testing at BSM Laboratories in Durban. The design was carried out on three design options using the two dedicated stockpiles of materials from two sources which were created for the project by the City. The design options included:

• 100% Reclaimed Asphalt
• 100% Reclaimed Asphalt with 10% crusher dust
• 100% Reclaimed Asphalt with 25% G4 gravel material

Based on the results obtained, the most cost effective option to yield a BSM 1 was the 100% Reclaimed Asphalt mix design using 2,1% foamed bitumen with 1% cement.

The batching plant was set up at the Ndabeni Roads and Stormwater depot in Maitland. The depot provided sufficient space to establish the KMA 220 as well as allowing for the stockpiling of the unprocessed RA, screened RA and processed BSM. The specification called for crushing of the RA to remove the oversized fractions.

An alternate proposal in the form of screening the material to minus 19 mm in place of crushing the material by the contractor was accepted provided the fines fraction (0,075 mm) met the specification of 4%. This was monitored for the duration of the project with a fines fraction of between 3% and 4% recorded. The screened RA was processed using the KMA to form a BSM 1 which was stockpiled for up to 7 days at the depot

In order to ensure an adequate quality of the BSM and consistency within the mixing process, Power Construction, Milling Techniks and WorleyParsons created a quality system tailored for the BSM production using the KMA. This was implemented to ensure the mix met the BSM 1 specification throughout the project. Once the BSM was produced, the material was either placed on site immediately or protected and stockpiled at the Ndabeni Depot.

Quality check

The BSM was paved using a heavy duty tracked paver from Power Construction in two 100 mm thick layers in the same process.

The process used to get the required 100% Minimum Dry Density (MDD) compaction was as follows:

• Paving 100 mm thick BSM layer and allowing for bulking of 30 to 40 mm
• Applying primary compacting using a 12 t tandem drum roller
• Paving the second 100 mm thick BSM layer on to the lower half of the layer
• Applying primary compaction using a 12 t tandem drum roller
• Applying final compaction using two pneumatic tire rollers (27 t PTR) until compaction was achieved.

Before starting with paving and compaction, a testing of the BSM was undertaken by Soillab who established a testing rig in accordance with the TG2, 2009 specification. Acceptance control was carried out on the Indirect Tensile Strength (ITS) and MDD taken from the batching plant and site samples.

The three sections identified were constructed using similar techniques, however in Section 1 and 3, the BSM was opened to traffic immediately after construction and in some cases 24 hours after construction.

WG photo Jobsite Camps Bay Drive 00012 PR

Thanks to the cold recycling application, rehabilitation is a sustainable and cost effective solution with a high quality level.

Important insights for cold recycling

The Camps Bay Drive rehabilitation project allowed for numerous lessons when dealing with BSM’s and more particularly 100% RA BSM’s. The following lessons were learnt during the project:

• Static mobile mixing of BSM’s should be undertaken in the summer months in the Western Cape region due to the weather conditions. Low temperatures and high moisture contents result in a poorer quality product.
• An impact crusher should be used to crush the oversized RA. This may create more fines in the mix as well as reduce the need for stockpiling of the oversized RA
• Planning and training of the operators prior to the trial section is crucial as this product is not an asphalt material and different placement and compaction methods apply
• The 100 RA BSM has voids within the mix and hence when inclement weather is eminent, the BSM should be sealed to prevent the ingress of water

Cold recycling with foamed bitumen

The following positives were established during the product when using the 100% BSM:

• The design is very versatile and minor changes to the RA and mix design do not have a significant effect on the quality of the BSM
• The material behaves extremely well under early trafficking
• There is a large cost saving when using the 100 % TA which amounted to approx. 2,95 Euro per m². This cost only includes the material cost saving and not additional traffic accommodation and time cost savings
• The cost could be further reduced by producing the material closer to the site or mass producing the material as the greatest cost component of the BSM production is the haul of the RA and BSM to the site

Overall, the project was a major success. During the project, approximately 8,150 t of RA (4 200 m³) was processed using 165 t of bitumen and 78 t of cement. Using the RA within the pavement structure provides a much more cost effective and sustainable solution for the future with depleting aggregate resources.

Contact Capital Equipment News

Title: Editor
Name: Munesu Shoko
Phone: +27 11 622-4770
Fax: +27 11 615-6108

Title: Advertising Manager
Name: Elmarie Stonell
Phone: +27 11 622-4770
Fax: +27 11 615-6108


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