24

CONSTRUCTION WORLD

MARCH

2016

PROJECT PROFILE

Material decisions

Murray & Roberts Infrastructure conducted its own geotechnical tests to

enable it to optimise use of the material available in close proximity to

the project. “By doing this we were able to determine the most suitable

material from each area for use on the hard stands as well as on the

various road works that formed part of our contract,” Venter says. Cut

and fill quantities were balanced accordingly.

The project had significant quantities of hard rock and Venter says

that the construction programme also had to take cognisance of these

difficult excavation areas. Blasting had to be done for 30 of the 35 base

excavations due to the rocky ground conditions on the site.

Significantly all material excavated on site was reused on the

contract and depending on material specification this was either as fill

on the roads or hard stands or for backfilling of the foundations on the

wind farm site. In addition to this, three different areas were located

on site with material that was considered suitable to crush for wearing

course. Bedding material was also supplied for the trenches. The only

material imported was the concrete aggregate.

The decision for Murray & Roberts Infrastructure to erect a batch

plant to service this project was strategic and facilitated ready access

to concrete, as and when required. The plant is located on a farm adja-

cent to Noupoort.

The readymix being produced uses AfriSam OPC and includes fly

ash content facilitating a lower carbon footprint for the construction

and a reduction in cost. In total 20 000 m

3

of concrete will be used for

the construction of the foundations and ancillary structures.

Road works

The wind farm site is spread across three different landowners’ prop-

erties and it was necessary to construct access roads that would firstly

allow construction to take place and secondly facilitate the delivery

of all the wind turbine components for installation. Construction of

these roads required mass earthworks and cut to fill operations. The

road width is approximately 5 metres with a side drain for storm water

management. This gravel road scope of work also included the provi-

sion of cattle grids between the different landowners’ properties on the

boundary fences.

Maintenance of a 10 km section of the Oorlogspoort Road from

Noupoort to site was necessary. Part of the Murray & Roberts Infra-

structure scope of work included modifications at Cradock and the

Oorlogspoort/N9 intersection to accommodate the deliveries of the

wind turbine components. The blades, nacelle and hub are imported

and shipped the Port of Ngqura, in Port Elizabeth and then transported

to site, whereas the tower sections are manufactured locally, in Atlantis,

in the Western Cape. The locally manufactured turbine tower sections

mean that Noupoort Wind Farm has been able to achieve local content

commitments exceeding 40% of the project’s total value.

Environment and community

Before construction activities began, Murray & Roberts Infrastructure

subcontracted an environmental consultant to conduct a search and

rescue on the flora and fauna in the immediate locality. While no endan-

gered species were identified, steps were taken to relocate all vulner-

able species to areas with similar habitat and climatic conditions.

Around 230 individuals from the local community were employed

on the contract, and these ranged from general labourers up to machine

operators. Murray & Roberts Infrastructure places an enormous focus on

training, both in terms of competency and safety, and this was provided

at all levels, with certificates of competency issued.

The company has also continued its strong focus on supporting

the local communities and in a joint initiative with Mainstream, Murray

& Roberts Infrastructure has started a programme to upskill a local

contractor to repair the roofs of local buildings.

Jerome Govender, executive chairman of Murray & Roberts

Construction, comments that he is very pleased with the progress on

the project considering the weather and other challenges that had to be

overcome, and with the approach adopted with the environment and

the community.

The hard stand areas were cleared and grubbed and rock fill

brought in to level the area after compaction of the in-situ material. This

was followed by the addition of wearing coarse material which was also

compacted to give its final surface finish.

Venter explains that load bearing testing was done on each hard

stand to ensure it is capable of carrying the mobile crane’s weight

during wind turbine erection.

A completed hardstand at Noupoort Wind

Farm awaiting erection of the turbine tower.

Steel reinforcement for one of the concrete

bases at Noupoort Wind Farm.

A completed concrete base and plinth before

backfilling at Noupoort Wind Farm.