To main content

Channel expansion, Suez

The Suez Canal is one of the world’s main shipping links and thus of major importance to world trade. The canal extends from Suez on the Red Sea to Port Said on the Mediterranean. Egypt’s Suez Canal Authority awarded the contract to double the canal’s capacity to a consortium, which was aptly named the Challenge Consortium by the Chairman of the Suez Canal Authority, Admiral Mohab Mamish.

The consortium comprising Boskalis, Van Oord, NMDC (Abu Dhabi) and Jan de Nul (Belgium) had the task of dredging the 35 km long New Suez Canal parallel to the existing canal. This involved dredging a record breaking 200 million m3 of sand, clay and rock in less than 9 months. In addition, two Service Channels (80 m wide and design depth -10 m CD) and two Cross Channels (50 m wide and design depth of -6 m CD) were dredged to connect the existing canal and the New Suez Canal.

Enormous scale

Dredging 200 million m3 of material in a period of 9 months required the deployment of the world’s largest dredging fleet comprising 21 Cutter Suction Dredgers, 5 Trailing Suction Hopper Dredgers and 2 Water Injection Dredgers. The dredging vessels cut the capital volume and pumped the mixture of soil and water into 16 disposal basins totaling an area of 73 million m2. This required a total length of 85 km floating and shore pipeline.

Complex planning

To ensure the project was completed on time, the fleet of vessels had to be managed to achieve optimum production levels. The first planning task was to enable as many vessels as possible to dredge simultaneously. This required breaking in at both ends of the New Suez Canal and at four points along the existing canal to create ten fronts for the dredging vessels at an early stage in the project.

Logistics

The project was a major challenge in logistics and could have been a project on its own on managing the logistics of incoming shipments arriving on their own keel, by semi-submersible vessels, cargo vessels, and regular air freight, sea freight and road transport.

Time pressure

The main challenge for the Consortium was the time frame in which all dredging had to be completed. A project of this scale was initially estimated to take three years to complete, but the President of Egypt had set the limit for completion at one year. The period from tender to contract award was only one month, and dredging started within a month. The New Suez Canal was open for shipping in just five days after completion of the dredging works.

Facts and figures

  • 35 km long canal with bottom width 147 to 177 m and design depth -24 m CD
  • 2 Service Channels (width 80 m and design depth -10 m CD), and 2 Cross Channels (width 50 m and design depth -6 m CD)
  • 9 months execution period including preparations
  • 28 dredgers on site including 21 Cutter Suction Dredgers, 5 Trailing Suction Hopper Dredgers and 2 Water Injection Dredgers
  • 85 km soil conveying pipeline (floating and shore pipeline)
  • 16 disposal basins located on the east and west banks of the New Suez Canal
  • Approximately 2,000 people from 45 countries employed on site; over 4.5 million man-hours, over 3,700 project safety inductions, and no fatal injuries or permanent disabilities
  • The New Suez Canal was opened for shipping on 6 August 2015, 5 days after completion of dredging
  • Extension of time was not possible

Related projects

Selected filters

Rehabilitation of old breakwater, Port of Poti

The city of Poti is located at the mouth of Georgia’s largest river, the Rioni. It has been an important trade centre for centuries. Since the early 19th century, many plans have been developed for the creation of a major sea port. Construction work started in the 1850s on the main breakwater that is still protecting the port today. During its long lifetime, this structure has been maintained by frequently adding 20-60 tons of concrete cubes to the armour layer. Significant settlement of the structure over time has lowered the crest level considerably, resulting in large overtopping volumes and therefore in port-operation downtime. As a result, a rehabilitation project was executed between 2006 and 2008 by Royal Boskalis Westminster N.V. to reduce the downtime caused by overtopping waves.

Sepetiba_aerial_header.jpg

Reclamation and dewatering works, Sepetiba Bay

The German steel-maker ThyssenKrupp Steel and the Brazilian mining giant Companhia Vale do Rio Doce (CVRD) teamed up to construct a EUR 3 billion steel factory at Sepetiba. This is a small town of 36,000 inhabitants near Rio de Janeiro with good access to the Atlantic Ocean. The new steel factory allowed Brazil not only to export more of its plentiful mineral resources, but also to produce semi-finished products that can be sold at higher margins. The government authorities of Brazil and Rio de Janeiro both supported the project.

SBS_Reclamation_23-05-08_60_header.jpg

Port development, Lerwick

The Port of Lerwick is situated on the east coast of the Shetland Islands, and is operated by Lerwick Port Authority. The 2008 dredging and reclamation works were one of the largest marine projects to be carried out in Scotland in recent years and constituted the largest single investment in the port to date.

vuosaari_1_header.jpg

Port construction, Vuosaari

Vuosaari Harbor is the most significant harbor project in Finnish history; in fact, it is unique even on a European scale. Both existing harbors in Helsinki’s city centre are being transferred to the eastern outskirts of the city. They are being replaced with a harbor with excellent traffic connections that can meet the increasing demand for cargo handling. The Vuosaari Harbor Center will provide a competitive and modern service package, with smooth connections between harbor operations and other logistical facilities. The harbor center will comprise the gate area, the closed harbor area and the adjacent Business Parks. The fairway to the Harbor Center will be 32 km long, at least 200 m wide, and 11 m deep. The port area comprises 150 ha, of which 90 ha will be land reclaimed from the sea.

AA_hoofdfoto_header.jpg

Dredging, reclamation,
reconstruction and environmental
monitoring works, Vilufushi

The Republic of the Maldives consists of 1,190 small coral islands grouped into 26 atolls. Only 200 islands are inhabited. On 26 December 2004, a tsunami originating from Indonesian waters struck the Maldives. This natural disaster had major economic, social and environmental consequences. Of the 200 inhabited islands, 13 were totally destroyed and 56 suffered major damage, including the island of Vilufushi in Thaa Atoll. Houses and infrastructure were heavily damaged. All the surviving residents had to be evacuated to the neighboring island of Buruni to the west of Vilufushi. The government of the Maldives decided to reconstruct the entire island and to extend it considerably by landfilling the shallow reef. Boskalis International was appointed for this work.

2007-02-22_header.jpg

Land reclamation, Half Moon Bay Island Manama

‘Half Moon Bay’ island is situated in the Seef area of Manama in the Kingdom of Bahrain. The purpose of the island is to accommodate a future 5 Star Hotel development as well as several villas. Engineering Department Hydronamic was engaged to develop the design of the island and to provide advisory services to Boskalis Westminster Middle East. Through good co-operation between the design engineers of Hydronamic and the construction team of Boskalis Westminster Middle East innovative ideas were developed which could be integrated into the rock protection design resulting in the successful and efficient construction with significant cost savings to the project.