A ship (1) includes a hull (2) having side shells (3A, 3B) formed at both sides in athwart ship direction, a pair of watertight compartments (6A, 6B) installed along the side shells (3A, 3B) of both sides in the athwart ship direction in the hull (2) and portions of which are divided and formed by the side shells (3A, 3B), a connection section (7) configured to bring the pair of watertight compartments (6A, 6B) in connection with each other, an opening/closing valve (8) installed at the connection section (7), and a control device (9) configured to control the opening and closing of the opening/closing valve (8), wherein the control device (9) switches the opening/closing valve (8) in an open state into a closed state when a predetermined condition is satisfied after receiving a signal indicating damage to the side shell (3A) has occurred.

A ship (1) includes a hull (2) having side shells (3A, 3B) formed at both sides in athwart ship direction, a pair of watertight compartments (6A, 6B) installed along the side shells (3A, 3B) of both sides in the athwart ship direction in the hull (2) and portions of which are divided and formed by the side shells (3A, 3B), a connection section (7) configured to bring the pair of watertight compartments (6A, 6B) in connection with each other, an opening/closing valve (8) installed at the connection section (7), and a control device (9) configured to control the opening and closing of the opening/closing valve (8), wherein the control device (9) switches the opening/closing valve (8) in an open state into a closed state when a predetermined condition is satisfied after receiving a signal indicating damage to the side shell (3A) has occurred.

One or more exemplary embodiments comprise a system having: a primary ballast tank; an auxiliary ballast tank; and a Venturi valve having a fluid input channel, a first fluid output channel, and a second fluid output channel that outputs fluid at a pressure that is higher than that of the first fluid output channel, wherein the first fluid output channel of the Venturi valve is coupled to the primary ballast tank for filling the primary ballast tank with fluid, and the second fluid output channel of the Venturi valve is coupled to the auxiliary ballast tank for filling the auxiliary ballast tank with fluid.

One or more exemplary embodiments comprise a system having: a primary ballast tank; an auxiliary ballast tank; and a Venturi valve having a fluid input channel, a first fluid output channel, and a second fluid output channel that outputs fluid at a pressure that is higher than that of the first fluid output channel, wherein the first fluid output channel of the Venturi valve is coupled to the primary ballast tank for filling the primary ballast tank with fluid, and the second fluid output channel of the Venturi valve is coupled to the auxiliary ballast tank for filling the auxiliary ballast tank with fluid.

A floating fabrication arrangement for building of floating structures (15). It comprises floating unit (1-4) having a continuous deck, at least one crane (5, 6) attached to said floating unit (1-4) and a mooring arrangement capable of mooring the floating unit (1-4) in a floating state on a body of water. The floating unit (1-4) having ballast chambers capable of ballasting and de-ballasting the floating unit (1-4) between a first building position where the floating unit (1-4) floats with the deck above water in a substantially horizontal position and a second inclined launch position, in which a first part of the deck is submerged and a second part of the deck is above water. A method of building floating structures is also described.

To be able to improve the flexibility in handling containers, a container ship configured to transport containers includes: an opening 106 through which cargo may be handled by moving a wheeled platform 501 between the container ship and a dock, the wheeled platform 501 including a plurality of containers 401 placed thereon; and a floor board 108 or a rail configured to support the wheeled platform 501 loaded from the dock through the opening 106.

A planning boat includes at least one tank provided on a bottom of the boat. The tank has, at a stern side, a wall through which a through hole is provided below a waterline. A hull of the planning boat includes a bottom plate that forms the bottom of the boat, right and left side plates that form sides of the boat and a bow, a transom plate that forms a stern, and a plurality of longitudinal vertical plates. The plurality of longitudinal vertical plates each extend between the transom plate and forward portions of the side plates along a sailing direction and each have a lower surface that is fixed to an upper surface of the bottom plate. The tank is formed by using the pair of longitudinal vertical plates of the existing planning boat.

A planning boat includes at least one tank provided on a bottom of the boat. The tank has, at a stern side, a wall through which a through hole is provided below a waterline. A hull of the planning boat includes a bottom plate that forms the bottom of the boat, right and left side plates that form sides of the boat and a bow, a transom plate that forms a stern, and a plurality of longitudinal vertical plates. The plurality of longitudinal vertical plates each extend between the transom plate and forward portions of the side plates along a sailing direction and each have a lower surface that is fixed to an upper surface of the bottom plate. The tank is formed by using the pair of longitudinal vertical plates of the existing planning boat.

An automatic wing control mechanism for sailing vessels is described. The automatic wing control mechanism adjusts a wing orientation with respect to the apparent wind to optimize its efficiency.

Embodiments include a retrofit pontoon system including a pontoon, the pontoon having a pontoon body defining a first cavity, a retrofit assembly, the retrofit assembly including a tube, wherein the tube is sized to pass through a first aperture formed in the pontoon body and a selectively fillable container, where the tube is operably coupled with the selectively fillable container, and a pump, the pump being coupled with the tube such that operation of the pump selectively fills and drains water from the selectively fillable container, where filling the selectively fillable container lowers the profile of the pontoon in the water and emptying the selectively fillable container raises the profile of the pontoon in the water.