Foundation For the foundation of the dock, hundred of piles were driven into the ground to create a
deep foundation. This foundation needs to support the ships when they are in dock, and when it's empty it needs to keep the ground floor in place against
groundwater, that pushes the floor upwards.
Dry dock and Construction dock Hellevoetsluis Dry dock consists of two parts. The part closest to the wet dock, and separated from it by a
caisson door, is the deepest. It was meant to be a real dry dock, i.e. ships were to use it for only a limited amount of time. E.g. for inspections, or cleaning, which did not take more than a couple of days. As such it provided an alternative to careening. The construction dock is behind the 'proper' dry dock, and separated from it by lock doors. It is shallower, and therefore more expensive to operate. Bigger ships have to be lifted above the flood level in order to use it. (The dry dock then operates as a lock) Its operation also requires it to wait for the dry dock proper not to hamper it. Therefore, the construction dock was used for more extensive (lengthier) repairs, or building new ships. In such circumstances the higher operation cost were less relevant. In spite of its name, the construction dock is also a regular dry dock.
Dimensions In about 1880, the dimensions of the dry dock were given as 71 m long, with an entrance at
Amsterdam Ordnance Datum water level of 15.90 m wide. The blocks were 0.75 m high. If water was 0.1 m above AOD, the caisson door could be opened, and a ship with a draft of 4.45 m could enter the dock. This was not counting the tide. The fact that the dry dock nowadays serves ships of 3.75 m draft at +0 m AOD, suggest that the block height of 75 cm still had to be deducted from the 4.45 m, leading to a possible draft for docking ships of 3.70 m without tide in 1880. The construction dock was given as 70.4 m long. At AOD + 0.1 m a ship with a draft of 2.65 m fore and 2.95 m aft could dock. The floor of the construction dock is almost 1 m above the floor of the dry dock, making it easy to keep the construction dock dry. These docking depths also did not take the tide into account, nor the dry dock operating as a lock. (This is how
HNLMS Buffel was put in the construction dock) In 1880, the high tide water level was 0.75 m higher than AOD, and at spring tide the water level was again 1–2 m higher. Therefore, about 0.7 m would have to be added again to the 3.7 m to get a regular draft of 4.4 m for ships willing to enter the dry dock at high tide. Nowadays the
Haringvlietdam blocks most of the tide from reaching Hellevoetsluis.
The Caisson Door A
caisson door was used to close the dry dock. Such a ship caisson or bateau-porte was a French invention. It had been used for the first time in the Netherlands in the dock of
Medemblik. On 17 April 1806 a like ship door was launched in Hellevoetsluis, and placed to close the dry dock. The first Hellevoetsluis caisson door was made of wood. In the 1880s it was replaced by one made of riveted iron. This was tendered on 30 July 1884. It is still in use.
Pump House A steam engine was bought to provide the power for emptying the dry dock. It was secretly bought from
Boulton and Watt in Birmingham for 15,000 guilders. It arrived in 1801 and was placed in a pump house. The pump house was demolished in 1968, but was rebuilt according to the original design in 2001. == Service ==