Field of the invention
[0001] The present invention relates to the field of constructing tankers for the carriage
of liquid such as oil and chemicals, in particular parcel tankers.
Background of the invention
[0002] A tanker is a cargo ship configured for the transportation of liquid in bulk. It
has a hull including a number of cargo tanks in which the liquid for transportation
is stored. The liquid for transportation is loaded onto the tanker and subsequently
into its cargo tanks via a system of pipes, referred to as outfitting. Once the tanker
has arrived at its destination, the transported liquid is unloaded from the cargo
tanks and subsequently from the tanker via said system of pipes.
[0003] In addition to tankers, there are cargo ships that are configured for the transportation
of dry cargo in bulk. These so-called dry bulk carriers have a hull including a number
of holds instead of cargo tanks. A hold is a space for carrying the dry cargo. Access
to a hold is at the top of the hold by a hatch opening in the main deck of the ship.
The dry cargo for transportation is loaded into a hold and unloaded from said hold
via its hatch opening. Loading and unloading of the hold is for instance by means
of a quay crane. Dry bulk carriers are in general provided with hatch covers for covering
the hatch opening during the transportation of the dry cargo.
[0004] The transportation of liquid and dry cargo in bulk is different from containerized
cargo transportation wherein cargo is stored in containers and wherein the cargo and
the container in which the cargo is stored are lifted in/out of the ship at the same
time. Ships configured for containerized cargo transportation are called container
carriers. Like dry bulk carriers container carriers have a hull including a number
of holds, wherein access to a hold is at the top of the hold by a hatch opening in
the main deck of the ship. The size and shape of containers used in containerized
cargo transportation are such that a container containing its cargo can be lifted
in and out of the holds of the container carrier and can be handled and transported
with ease on shore by road or by rail. Consequently, a plurality of containers can
be carried in each hold of a container carrier. For easy positioning of the containers
relative to each other in a hold and for securing the containers in the hold, the
holds of container carriers are provided with so-called cell guides.
[0005] In
US patent 4,949,659 a cargo ship is described having a hull including a number of holds, wherein a hold
is provided with an interchangeable system allowing such ship to carry in said hold
both containers and dry cargo in bulk. Such a cargo ship thus can function both as
dry bulk carrier and container carrier.
[0006] WO2013/083160 relates to a system for containing and transporting compressed natural gas in inspectable
cylindrical containers, combined in modules. In
WO2013/083160 a hull is described having an internal space that is subdivided in a multitude of
modular compartments, for example watertight cells, with a 10x10m base and a height
that is substantially equal to the height of the hull. It is described that it is
possible to occupy these compartments with a combination of inspectable cylindrical
pressure vessels arranged vertically, wherein each pressure vessel is interconnected
with a piping system intended for loading and offloading operations from the bottom
of each vessel to main headers. It is furthermore described that said cells can constitute
independent modules provided with a suitable frame for ensuring the immovability with
regard to the same of each of the cylindrical containers and where each module can
be removed with regard to the ship's hold in such a way that it can be easily be taken
out itself, rather than just the pressure vessels therefrom.
[0007] The present invention relates to the field of constructing tankers, in particular
parcel tankers. A parcel tanker is a tanker designed to carry an assortment of liquids,
such as chemicals, or different grades of a liquid, such as oil, at one time. A parcel
tanker has a relatively large number of small tanks for carrying the assortment of
liquids or different grades of a liquid in small quantities in complete separation
on one ship. Parcel tankers are currently constructed with integrated steel tanks
(either of mild, clad or stainless steel) that form part of the structure of the tanker.
Summary of the invention
[0008] The present invention provides a method for tanker, preferably parcel tanker, construction.
[0009] The method according to the invention comprises the steps of:
- providing a hull having a main deck and having arranged therein at least one hold
which is accessible via a hatch opening in the main deck;
- providing a self-contained tank module comprising a number of cargo tanks;
- arranging in the hold the self-contained tank module to provide a tanker, wherein
- the tank module is arranged in the hold such that the tank module and the hull are
structurally independent and such that the tank module is removable via said hatch
opening of the hold after a period of use of the tanker.
[0010] In the method according to the invention, the size and shape of the tank module are
such that once arranged in the hold, the part of the tank module that is arranged
in the hold fits the size and shape of the hold, and the hatch opening of the hold
is closed by means of the tank module. In other words, in the method according to
the invention one tank module is arranged in a hold wherein the tank module fills
the cargo space provided by the hold.
[0011] Furthermore, in the method according to the invention an outfitting comprising conduits
for loading a liquid to be transported into the cargo tanks of the tank module and
for unloading the liquid from the cargo tanks after transport is arranged above the
main deck. Such outfitting allows for loading and unloading liquid bulk cargo without
removing the cargo tanks from the hull. The resulting tanker is thus configured for
loading and unloading liquid bulk cargo wherein the tank module and its cargo tanks
remain in place on the ship during loading and unloading of the liquid bulk cargo.
When arranging the tank module in the hold during tanker construction and removing
the tank module from the hold, the cargo tanks of the tank module will be empty. Unlike
containers in containerized transport, the tank modules of the present invention do
not need a size and shape to allow for arranging in the hold and removing from the
hold while loaded with cargo and do not need a size and shape for road or rail transportation.
Therefore, unlike containers in containerized transport, the tank modules of the present
invention can have a size and shape that fills the cargo space provided by the hold,
and can even have a size and shape such that the tank module extends out of the hold
and above the hatch opening. A typical size of the tank module is approximately 24
m Beam x 28 m Length x 13 m Height.
[0012] By closing the hatch opening of the hold by means of the tank module, the need for
a main deck or hatch cover for covering the tank module and closing the hatch opening
after arranging the tank module in the hold is eliminated, and the tank module is
allowed to extend above the hatch opening. Furthermore, the need for loading, unloading,
and servicing conduits in the hold is eliminated.
[0013] Since the self-contained tank module is independent of the hull, the structure of
the tank module is not affected by the same stresses and fatigue as an integrated
tank and hull construction during the operation. As a result the tank module built
and installed according to the method of the present invention should be safer in
operation than a traditional integrated tank as the tanks within the tank module will
be less prone to cracking caused by stresses and fatigue in a ship. Additionally,
unlike in an integrated tank and hull construction, the hull does not form one or
more walls of the cargo tanks of a tank module. Consequently, an additional barrier
is provided between the liquid carried in the cargo tanks and the environment.
[0014] The fact that the structure of the tank module is not affected by the same stresses
and fatigue as an integrated tank and hull construction during the operation, will
also mean that the tank module will have a longer life. Because the tank module can
be removed from the ship without modifying the hull or the tank module, the tank module
can be re-used after removal without any requirement for the rebuilding of the original
hull or the tank module. This would not be possible in a traditional tanker with integrated
tanks without modifying the entirety of the ship (both hull and integrated tanks).
The method according to the invention allows for relatively easy disassembly of the
tanker after a period of use and for re-use of the tank module after disassembly in
another ship.
[0015] A tank module can also be exchanged for another tank module of different internal
design in the method according to the invention should this be considered desirable,
which is not possible in a tanker where the tanks are an integrated part of the construction.
For instance it may become desirable to install a tank module having either more or
less separate tanks to meet changing market demands. Any increase or decrease in the
number of segregations is very difficult in a tanker with integrated tanks but is
relatively easy where only the tank module is changed. This makes the tanker far more
flexible. In the method according to the invention a single tank module has at least
one, but preferably a plurality of separate cargo tanks.
[0016] Furthermore, the tank module can also be re-used when the hull of the tanker has
reached the end of its life, but the tank module has not yet reached its end of life.
This would apply not only where, for example, the hull of the tanker was damaged but
also in case of changes in the regulatory or environmental requirements for a tanker
necessitating extensive work on the hull or the machinery of the tanker. A tank module
can be removed from the damaged or non-compliant hull and be installed into a hull
that complies with the changed environmental or safety regulations at renewal costs
much less than in a traditional tanker with integrated tanks. This would also apply
where there was a commercially desirable result, for example where new engine technology
made it commercially desirable to change hull rather than continue with a less efficiently
propelled hull.
[0017] In the method according to the invention the tank module is installed in the tanker
as an independent tank module by supporting the tank module in the hold so that relative
movement is allowed between the hold and the tank module. According to the invention
tank module support members are arranged between the hold and the tank module for
supporting the tank module in the hold, wherein the tank module support members are
adapted to allow for relative movement between the hold and the tank module. The tank
module is preferably supported by tank module support members that allow some movement
of the tank module relative to the sides of the hold, and provide gaps between support
surfaces, but preventing excessive movement, preferably by providing retaining keys.
[0018] Furthermore, fitting the tank modules into the hatch opening of the hold allows for
the tank module to extend above the hatch opening, thus providing more storage volume
in the same hold space as the module extends above where the main deck would otherwise
have been: the tank module then forms a part of the main deck. In the method according
to the invention the hatch opening of the hold is closed by means of the tank module.
[0019] In order to allow for relative movement between the periphery of the opening of the
hold and the tank module arranged therein, a water tight seal is preferably provided
between the tank module and the periphery of the hatch opening that prevents the ingress
of water but still allows for relative movement between the tank module and the periphery
of the hatch opening.
[0020] Furthermore, the method according to the invention allows for standardization of
both the hull and the tank modules. Such standardization allows for repeated use of
the same basic design for the hull and the modules in constructing a series of tankers.
Repeated use of such a single hull design and tank module design makes it possible
to reduce the costs of construction of a single tanker.
[0021] Furthermore, in the method according to the invention the hull of a pre-built dry
bulk cargo ship can advantageously be used as a recipient vessel for the tank modules
(with relatively minor adaptation) due to the nature of the modules being installed.
Because of the structural independence of the tank module in the hold neither the
structure of the hull nor the structure of the tank module need be affected significantly
by the installation of the tank modules in the hold. As a result the dry bulk cargo
ship and the tank modules can be built separately.
[0022] Furthermore, if the dry bulk cargo ship is newly built the ship may be a standard
design. Such a ship may be built repeatedly for the purpose of assembling a number
of different tankers. Repeated building of such a ship will lower the costs significantly.
[0023] Cargo ships constructed for the transportation of dry bulk cargo, such as a bulk
carrier, are more commonly constructed than chemical parcel tankers. As a result such
dry bulk cargo ships can be built for far less cost.
[0024] A further advantage of the method according to the invention is that the tank module
can be removed via the hatch opening after a period of use of the tanker. After removal
of the tank module a replacement tank module may be installed via the hatch opening
in the hold. Alternatively or additionally the removed tank module is arranged in
the hold of another cargo ship. A replacement module can therefore be installed and
the tanker can continue in use without delay while the original tank module is repaired.
[0025] In the chemical parcel tankers market the method according to the invention is advantageous
as currently chemical parcel tankers are purpose built for a specific market with
a hull having a fixed number of structurally integrated tanks to meet the demand in
that specific market.
[0026] As a result chemical parcel tankers of the same design are generally built in small
series by a few specialized ship builders. The method according to the invention now
makes it possible to build cargo ships of a standard design in larger series by less
specialized ship builders, and to install tank modules with an internal design for
a specific market.
[0027] Currently adapting chemical parcel tankers with structurally integrated tanks to
meet changing market demands is not possible without heavily modifying the hull. In
view of high costs of such heavy modifications, operators of the known chemical parcel
tankers generally do not modify the chemical parcel tankers, resulting in less effective
use of the tankers. The relatively easy exchange of a tank module for a tank module
of a different internal design allows for a more effective use of a tanker during
the life time thereof in the event of changing markets in which chemical parcel tankers
operate.
[0028] The most difficult cargos, such as acids, can only be carried in tanks of chemical
parcel tankers that are made of stainless steel. Since stainless steel is less affected
by corrosion compared to the steel of which the hull is made, stainless steel tanks
of a chemical parcel tanker are suitable for re-use when the hull has reached its
end of life. As explained herein above, the method according to the invention promotes
the re-use of tank modules. This makes the method according to the invention advantageous.
[0029] In a preferred embodiment of the method according to the invention, the hull has
arranged therein a plurality of holds, and one tank module is arranged in each of
the holds.
[0030] Each tank module can have a different number of cargo tanks. Typical dimensions of
the hull are Length approx. 180 m, Breadth approx. 32 m, and Depth approx. 15 m. Typical
number of holds and tank modules is five.
[0031] The present invention further provides a tanker, preferably a parcel tanker, comprising:
- a cargo ship with a hull having at least one hold that is accessible via a hatch opening;
and
- a self-contained tank module comprising a number of cargo tanks;
wherein
- the tank module is installed in the hold such that the tank module and the hull are
structurally independent and such that the tank module is removable via the hatch
opening of the hold after a period of use of the tanker.
[0032] Preferably, the hull has arranged therein a plurality of holds, and one tank module
is arranged in each of the holds. A single tank module has at least one, but preferably
a plurality of separate cargo tanks.
[0033] As described herein above with respect to the method according to the invention,
this tanker according to the invention allows for relatively easy disassembly of the
tanker after a period of use thereof and for reuse of either the hull or the tank
module after disassembly.
[0034] According to the invention the tank module closes the hatch opening of the hold.
As described herein above with respect to the method according to the invention closing
the hatch opening of the hold by means of the tank module, the need for a main deck
is eliminated, the tank module is allowed to extend above the hatch opening, and the
need for loading, unloading, and service conduits in the hold is eliminated.
[0035] In order to allow for relative movement between the periphery of the hatch opening
of the hold and the tank module arranged therein, a water resisting construction is
preferably provided between the tank module and the periphery of the hatch opening
that allows for relative movement between the tank module and the periphery of the
hatch opening. In an advantageous embodiment thereof the water resisting construction
comprises a flexible seal member sealing a gap between the tank module and the periphery
of the hatch opening.
[0036] According to the invention the cargo ship comprises a main deck in which the hatch
opening of the at least one hold is arranged, and an outfitting arranged above the
main deck for loading, unloading, and/or servicing the cargo tanks of the tank module.
For loading and unloading the outfitting comprises conduits for loading a liquid to
be transported into the cargo tanks of the tank module and for unloading the liquid
from the cargo tanks after transport
[0037] Having an outfitting arranged above the main deck for loading, unloading, and/or
servicing the cargo tanks of the at least one tank module, such as conduits providing
a liquid connection, eliminates the need for such outfitting underneath the main deck.
Having outfitting arranged on the main deck thus provides relatively easy access to
the outfitting. Having an outfitting arranged on the main deck for loading, unloading,
and/or servicing the cargo tanks of the at least one tank module further makes it
possible to provide a pre-build or converted cargo ship with such outfitting with
relatively small modifications and makes it possible to change the outfitting after
a period of use thereof relatively easy.
[0038] In an advantageous embodiment thereof the outfitting comprises:
- a number of rigid pipelines fixedly mounted on the main deck; and
- a number of flexible conduits between the tank module and the rigid pipelines for
providing a liquid connection between the cargo tanks of the tank module and the rigid
pipelines.
[0039] In such outfitting the rigid pipelines fixedly arranged on the main deck provide
secure arrangement of the pipelines above the main deck, while the flexible conduits,
such as flexible hoses or flexible pipes, allow for relative movement between the
rigid pipelines fixedly arranged on the main deck and the tank module.
[0040] The rigid pipelines can be arranged beside the hatch opening. This makes it possible
to arrange the rigid pipelines on the main deck before arranging the tank module into
the hold, for instance during the build of the cargo ship, and leave the rigid piping
in place when removing the tank module from the hold. Alternatively, the rigid pipelines
are arranged above a tank module that is arranged in the hold. This requires arranging
the rigid pipelines after arranging the tank module in the hold and removing the rigid
piping before removing the tank module from the hold, but has the advantage that more
space is available for the rigid pipelines relative to the space that is available
beside the hatch opening.
[0041] In an advantageous embodiment the rigid pipes are arranged beside the at least one
hold and a hold manifold is arranged on the main deck adjacent said hatch opening
of said at least one hold, said hold manifold comprising a number of manifold connectors
for connecting to the hold manifold said flexible conduits, wherein each hold manifold
connector is in liquid communication with one of said rigid pipelines.
[0042] Such outfitting can be arranged on the main deck before the tank module is arranged
in the hold and allows easy connection of a tank in the tank module to the ship load/unload
manifold via the hold manifold after arranging the tank module in the hold.
[0043] Having a tank module manifold adjacent the hold manifold makes it possible to connect
a tank module to the rigid piping by simply connecting, after arrangement of the tank
module in the hold, a manifold connector of the hold load/unload manifold to a manifold
connector of the tank module load/unload manifold by means of a relatively short flexible
conduit. The tank module manifold can be arranged on the tank module during the building
of the tank module.
[0044] Such outfitting allows for loading and unloading of the cargo tanks of a tank module
from a central location on the main deck. Preferably each cargo tank of the tank module
is connected to the ship load/unload manifold via a dedicated rigid pipeline. This
makes it possible to keep different liquids completely separate. Alternatively, the
number of rigid pipelines for loading/unloading is less than the number of separate
cargo tanks. In that case a rigid pipeline is used for loading/unloading a plurality
of tanks. This requires less rigid pipes to be arranged on the main deck. After loading/unloading
one tank the rigid pipeline is then disconnected from the loaded/unloaded tank and
connected to a tank to be loaded/unloaded. When rigid lines are shared between tanks
for loading and unloading, the embodiment as described herein above including a hold
manifold, and optionally a tank module manifold adjacent said hold manifold, is particularly
advantageous as it allows for easy connection and disconnection of the flexible conduit.
[0045] In a further advantageous embodiment of the tanker according to the invention at
least one of the rigid pipelines is connected to a service facility remote from the
at least one hold. Such outfitting allows for servicing the cargo tanks of a tank
module from a central service facility. Such a central service facility provides for
instance service liquids such as compressed air, nitrogen, water, and heating/cooling
fluids.
[0046] In a further advantageous embodiment of the tanker according to the invention having
an outfitting on the main deck, the outfitting comprises for servicing:
- at least one deck house module arranged on the main deck;
- at least one conduit that provides a liquid connection between the deck house module
and a tank module.
[0047] In a further advantageous embodiment of the tanker according to the invention the
tank module has a self-contained structure comprising an external framework, preferably
comprising longitudinal and transverse webs. The external framework allows for less
reinforcing elements inside the tank module. As a result of the external framework
there is a space between walls of the tank module and walls of the hold in which the
tank module is arranged. This space can be used for the application of insulating
material.
[0048] Since according to the invention the tank module and the hull are structurally independent,
there is more freedom in the design for the structure of the tank module.
[0049] In a further advantageous embodiment of the tanker according to the invention the
tank module comprises walls enclosing an inner space, wherein preferably the internal
space is divided in a plurality of tanks, preferably by means of internal walls.
[0050] In an advantageous embodiment thereof the walls of the tank module can be made of
solid stainless steel or less expensive clad stainless steel.
[0051] The present invention further provides a cargo ship for providing a tanker according
to the invention as described herein above, including a hull having arranged therein
at least one hold which hold is accessible via a hatch opening, wherein the hold is
adapted for arranging in the hold via the hatch opening a self-contained tank module
to provide a tanker such that the tank module and the hull are structurally independent
and such that the tank module is removable via the hatch opening of the hold after
a period of use of the parcel tanker. As described herein above with respect to the
method according to the invention the cargo ship is advantageously a converted dry
bulk carrier.
[0052] Alternatively, the cargo ship is purpose built for providing the tanker.
[0053] The present invention further provides a self-contained tank module for providing
a tanker according to the invention, adapted for being arranged in a hold in a hull
of a cargo ship via the hatch opening via which hatch opening the hold is accessible
to provide a tanker, such that the tank module and the hull are structurally independent
and such that the tank module is removable via the hatch opening of the hold after
a period of use of the tanker.
Brief description of the figures
[0054] The present invention is further elucidated in the following description with reference
to the accompanying schematic figures. In the figures non limitative embodiments of
the method and tanker according to the invention are shown. In the figures:
- Fig.1 shows an embodiment of a tanker according to the invention in perspective view;
- Fig.2 shows an embodiment of a tanker system including the tanker of fig.1 in perspective
view;
- Figs.3 to 7 show subsequent steps of an embodiment of the method of tanker construction
according to the invention in perspective view;
- Fig. 8 and 9 show in detail an embodiment of the interface between a tank module and
a hatch opening in a tanker according to the invention in perspective view;
- Fig. 10 shows a view in cross-section of an embodiment of a tanker according to the
invention;
- Fig. 11 schematically shows an embodiment of the deck outfitting of a tanker according
to the invention;
- fig. 12 schematically shows a further embodiment of the deck outfitting of a tanker
according to the invention.
Detailed description of preferred embodiments
[0055] Figures 1 and 2 show a tanker, in particular a parcel tanker 1. The parcel tanker
comprises a cargo ship 3 including a hull 5 having arranged therein a number of holds
7, in the shown embodiment five holds, wherein each hold is accessible via a hatch
opening 9. The parcel tanker 1 further comprises a number of independent tank modules
11, in the shown embodiment five independent tank modules, arranged in the holds 7.
Each tank module 11 that is arranged in a hold closes the hatch opening 9 of the hold
7 in which the tank module 11 is arranged.
[0056] In figure 2 is shown that independent tank module 11a is removed from the hold 7a
by lifting the tank module 11a out of the hold 7a in the direction of arrow A, without
removal or modification of the hatch opening 9a, and without disassembly of the tank
module 11a. Each of the independent tank modules 11a, 11b, 11c, 11d, and 11e is removably
arranged in one of the holds 7 via its hatch opening 9.
[0057] The independent tank modules 11 are shown with longitudinal external webs 13 and
transverse external webs 15 arranged on the outer walls 17 of the tank module 11.
This external webbing is part of the self supporting structure of the independent
tank modules 11. The walls 17 enclose an inner space in which a number of tanks are
formed. One tank can be formed in a tank module or a plurality of tanks separated
by means of internal walls.
[0058] After removal, the independent tank module 11a can be arranged in the hold of another
cargo ship to form another parcel tanker. A replacement independent tank module 11f
can be arranged in the empty hold 7a of the cargo ship 3. The replacement independent
tank module 11f can be of a different internal design, and includes for instance more
or less separate cargo tanks.
[0059] Figures 3 to 6 illustrate the conversion of a pre-build bulk-carrier 19 of standard
design, into a cargo ship 3 that is adapted for assembling a parcel tanker 1 as shown
in figures 1 and 2.
[0060] In figures 3 is shown that the bulk-carrier 19 comprises a hull 5 and a super structure
21 arranged at the aft end of the hull. In the hull are arranged five holds 7. Each
of the holds 7 is accessible via a hatch opening 23, i.e. an opening in the hull,
in particular in the main deck 25, leading to the hold. The hatch openings 23 are
covered in figure 3 by means of hold covers 27.
[0061] In figure 4 is shown that for converting the bulk-carrier 19, the hold covers 27
are removed. It is further shown in figure 4 that the hatch coaming 29 and part 25a
of the main deck 25 is removed. A hatch coaming is a raised frame arranged around
the periphery of each hatch opening that forms a support for the hold covers and strengthens
the edge of the hatch opening.
[0062] In figure 5 is shown that the result of the removal of the hold covers 27, the hatch
coaming 29, and part 25a of the main deck 25, is that the openings in the main deck
25 are increased in size and the main deck 25 no longer extends inwards beyond the
side walls 31 of the holds 7.
[0063] In figure 6 is shown that a new hatch coaming 33 is subsequently arranged around
the periphery of the openings of increased size. The new hatch coaming 33 is flush
with the side walls 31 of the holds 7, such that via the thus created hatch openings
9 of increased size, tank modules 11 can be arranged in the holds 7 that closely fit
the available space in the hold 7.
[0064] In figure 7, the cargo ship 3 resulting from the conversion is shown. From the cargo
ship 3 and a plurality of independent tank modules 11 a parcel tanker 1 as shown in
figure 1 can be assembled by arranging an independent tank module 11 in each hold
7. In figure 7 is shown that an independent tank module 11a is being arranged in one
of the holds 7a by lowering the independent tank module 11a into the hold 7a in the
direction of arrow B via the hatch opening 19a that gives access to said hold. The
independent tank module 11a is lowered into the hold 7a via the hatch opening 19a
without removal or modification of the hatch opening 19a. After arranging the independent
tank module 11a in the hold 7a, it can be lifted out of the hold again without removal
or modification of the hatch opening 19a, and without disassembly of the tank module
11a.
[0065] In figures 8 and 9 is shown that independent tank module 11 closes the hatch opening
of the hold in which it is arranged. A flexible seal 34 is arranged between the hatch
coaming 29 and a flange 35 of the tank module in order to seal the hatch opening.
As shown the tank module 11 extends above the hatch opening. The seal 34 needs to
be flexible, because the tank modules 11 are supported in the holds in such a way
that relative movement between the hull 5 and the independent tank modules 11 is allowed.
[0066] In figure 10 a cross-section of the hull 5 of the cargo ship 3 is schematically shown.
In particular it is illustrated in figure 10 that tank module support members 37,
39, 41 are arranged between the side walls 31 and bottom wall 43 of the hold 7 and
the tank module 11 arranged in the hold 7 for supporting the tank module in the hold.
Two types of tank support members are shown arranged on the bottom wall 43 of the
hold 7. The first type of tank support members 37 vertically supports the tank module
11. Support pads 45 are provided between these support members 37 and external web
15 of the tank module 11 in order to allow for relative movement between the hull
5 and the tank module 11 in the horizontal plane. Tank module support members 39 arranged
on the bottom wall 43, allow for relative movement between the hull 5 and the tank
module 11 in the horizontal plane in longitudinal direction of the hull 5, but restrain
relative movement in transverse direction C in the horizontal plane. Longitudinal
beams 47 arranged on the transverse webs 15 of the tank module 11 extend between two
support surfaces 39a and 39b of the support members of the second type. Relative movement
between the hull 5 and the tank module 11 in transverse direction C in the horizontal
plane is further restrained by tank module support members 41 arranged between side
walls 31 of the hold 7 and external web 15 of the tank module 11. By allowing a small
gap to exist between support surfaces 39a, 39b of the tank module support members
39 and the longitudinal beams 47, and between support surface 41a of tank module support
members 41 and the external web 15, some relative movement between the hull 5 and
the tank module 11 in transverse direction C in the horizontal plane is allowed, while
excessive movement is restrained. Tank module support members similar to tank module
support members 41 are arranged on the side walls of the hold 7 that are not shown
in figure 10. Again by allowing a small gap to exist between support surfaces of such
tank module support members the tank module 11, some relative movement between the
hull 5 and the tank module 11 in longitudinal direction of the hull 5 in the horizontal
plane is allowed, while excessive movement is restrained.
[0067] The available space 49 between the walls 31, 43 of the hold and the outer walls 17
of the tank module 11 allow for inspection and/or for applying insulation.
[0068] In figure 11 the outfitting of the parcel tanker 1 for loading, unloading, and servicing
of the tank modules 11 is schematically shown. The outfitting is arranged above the
main deck 25.
[0069] The outfitting for loading and unloading includes for each hold 7 a hold load/unload
manifold 51 arranged on the main deck 25 adjacent the hatch opening of the respective
hold. The hold load/unload manifold 51 comprises a number of manifold connectors.
[0070] A ship load/unload manifold 53 is arranged on the main deck 25 remote from the hold
load/unload manifolds 51. The ship load/unload manifold comprises a number of manifold
connectors for connecting conduits to the ship load/unload manifold that provide a
liquid connection between the ship load/unload manifold 53 and a load/unload facility
on shore.
[0071] A number of load/unload rigid pipelines 55 is arranged fixedly on the main deck 25
beside the holds, providing a liquid connection between the manifold connectors of
the hold load/unload manifold 51 and the manifold connectors of the ship load/unload
manifold 53.
[0072] Each tank module 11 comprises a tank module load/unload manifold 57 located adjacent
the hold load/unload manifold 51 of the hold in which the tank module 11 is arranged.
The tank module load/unload manifold 57 comprises a number of manifold connectors.
The connectors are liquidly connected to the tanks of the tank module 11 by means
of conduits 59. The shown tank modules 11 each include four tanks 61, 63, 65, 67.
[0073] Flexible conduits 71, such as flexible hoses, are connected between manifold connectors
of the hold load/unload manifold 51 and the tank module load/unload manifold 57 to
provide a liquid connection between the ship load/unload manifold 53 and the tanks
61, 63, 65, 67 of the respective tank module 11.
[0074] In figure 11 is shown that the tank module 11a on the left includes four tanks 61,
63, 65, 67. Four load/unload pipelines 55a, 55b, 55c, 55d are arranged between the
hold load/unload manifold 51 and the ship load/unload manifold 53, and each tank of
the tank module is connected to the ship load/unload manifold by means of a dedicated
pipeline.
[0075] The tank module 11b on the right also includes four tanks 61, 63, 65, 67. However,
only two load/unload pipelines 55e, 55f are arranged between the hold load/unload
manifold 51 and the ship load/unload manifold 53, such that only two tanks at a time
can be connected to the ship load/unload manifold 53. After load/unloading a tank
one of the flexible conduits 71a and 71b shown in figure 11 is disconnected from the
manifold connector of the tank module load/unload manifold 57 in order to disconnect
the loaded/unloaded tank. Subsequently the flexible conduit 71a, 71b is connected
to another manifold connector of the tank module load/unload manifold 57 to liquidly
connect another tank to the ship load/unload manifold 53. For loading/unloading both
tanks use is thus made of only one shared load/unload pipeline.
[0076] The outfitting of a parcel tanker 1 can be such that for each tank module 11 dedicated
load/unload pipelines are provided. Alternatively, the outfitting of a parcel tanker
1 can be such that for each tank module 11 shared load/unload pipelines are provided.
[0077] As shown in figure 11, the outfitting comprises for servicing a hold service manifold
73 arranged on the main deck 25 adjacent the hatch opening of each hold 7. The hold
service manifold 73 comprises a number of manifold connectors. A number of service
pipelines 75a, 75b are arranged fixedly on the deck beside the holds, providing a
liquid connection between the manifold connectors of the hold service manifold 73
and an onboard service facility 77 providing for instance service liquids such as
compressed air, N
2, water, etc.
[0078] Each tank module 11 comprises a tank module service station 79 located adjacent the
hold service manifold 73 of the hold in which the tank module 11 is arranged. The
tank module service station 79 comprises a number of manifold connectors.
[0079] Flexible conduits 81 are connected between manifold connectors of the hold service
manifold 73 and manifold connectors of the tank module service station 79 to provide
a liquid connection between the service facility 77 and the tank module 11.
[0080] As shown in figure 11 the outfitting further comprises for servicing a deck house
module 83 that is removably arranged on the main deck 25. The deck house module can
for instance house secondary heating systems, nitrogen bottle racks, cooling systems,
tank module dehumidifiers, and other equipment.
[0081] In figure 11 the deck house module 83 is arranged between two holds 7. Flexible conduits
85 connect the deck house module 83 to the tank module service stations 79 of two
tank modules 11a, 11b.
[0082] The flexible conduits 71 and 81 allow for relative movement between the rigid pipelines
55, 75 fixedly arranged on the main deck 25 and the tank modules 11a, 11b that are
allowed move relative to the hull and thus main deck 25. For removing a tank module
11 from a hold, the flexible conduits 71 and 81 are simply disconnected from one of
the manifolds, after which the tank module 11 can be lifted out of the hold in which
it is arranged.
[0083] In figure 12 an alternative outfitting for the parcel tanker 1 is shown. In this
alternative outfitting the rigid loading/unloading pipelines 55 are arranged above
the tank modules 11 and are fixedly arranged on the main deck 25 on supports arranged
between the holds in which the tank modules 11 are arranged. For each tank module
11 each tank 61, 63, 65, 67 is connected to the ship load/unload manifold via a dedicated
load/unload pipeline 55. Each tank 61, 63, 65, 67 is connected to its dedicated load/unload
pipeline 55 by means of a flexible conduit 87.
[0084] The description and drawing merely illustrate the principles of the invention. It
will thus be appreciated that those skilled in the art will be able to devise various
arrangements that, although not explicitly described or shown herein, embody the principles
of the invention and are included within its spirit and scope.
[0085] Furthermore, all examples recited herein are principally intended expressly to be
only for pedagogical purposes to aid the reader in understanding the principles of
the invention and the concepts contributed by the inventor(s) to furthering the art,
and are to be construed as being without limitation to such specifically recited examples
and conditions. Moreover, all statements herein reciting principles, aspects, and
embodiments of the invention, as well as specific examples thereof, are intended to
encompass equivalents thereof.
1. Method for tanker (1), preferably parcel tanker, construction, comprising the steps
of:
- providing a hull (5) having a main deck (25) and having arranged therein at least
one hold (7) which is accessible via a hatch opening (9) in the main deck (25);
- providing a self-contained tank module (11) comprising a number of cargo tanks;
- arranging in the hold (7) the self-contained tank module (11) to provide a tanker,
wherein
- the tank module (11) is arranged in the hold such that the tank module and the hull
are structurally independent and such that the tank module is removable via said hatch
opening (9) of the hold (7) after a period of use of the tanker;
- the size and shape of the tank module (11) are such that once arranged in the hold
(7), the part of the tank module that is arranged in the hold (7) fits the size and
shape of the hold (7); and
- the hatch opening (9) of the hold is closed by means of the tank module (11);
the method further comprising the step of:
- arranging above the main deck (25) an outfitting comprising conduits (55) for loading
a liquid to be transported into the cargo tanks (61, 63, 65, 67) of the tank module
(11) and for unloading the liquid from the cargo tanks after transport;
wherein
- once arranged in the hold (7), the tank module (11) extends above the hatch opening
(23);
- tank module support members (37, 39, 41) are arranged between the hold (5) and the
tank module (11) for supporting the tank module (11) in the hold (5), wherein the
tank module support members (37, 39, 41) are adapted to allow for relative movement
between the hold (5) and the tank module (11); and
- a water resisting construction is provided between the tank module (11) and the
periphery of the hatch opening (9) that allows for relative movement between the tank
module (11) and the periphery of the hatch opening (9).
2. Method according to claim 1, wherein the hull (5) is a hull of a pre-built dry bulk
cargo ship (19) having arranged therein said at least one hold (7) which is accessible
via a hatch opening (9), wherein said tank module (11) is arranged in said hold (7)
via said hatch opening (9).
3. Method according to claim 1, wherein providing a hull (5) having arranged therein
at least one hold (7) which hold (7) is accessible via a hatch opening (9), comprises
the step of:
- converting a cargo ship (19) constructed for the bulk transportation of dry cargo,
such as a bulk carrier, such that it includes at least one hold (7) which is accessible
via a hatch opening (9) and which is adapted for arranging in said hold (7) via said
hatch opening (9) the self-contained tank module (11) to provide a tanker (1);
wherein preferably the cargo ship (19) to be converted includes a hull (5) having
arranged therein at least one hold (7) which is accessible via a hatch opening (23),wherein
converting said cargo ship comprises the step of expanding the hatch opening (23)
of the hold (7) of the cargo ship (19) to be converted such that the periphery of
the expanded hatch opening (9) is substantially flush with the side walls (31) of
the hold (7).
4. Method according to any of the claims 1 to 3, further comprising the step of removing
via the hatch opening (9a) the tank module (11a) after a period of use of the tanker
(1);
preferably further comprising after the step of removing the tank module (11a) the
step of arranging via the hatch opening (9a) a replacement tank module (11f) in the
hold.
5. Method according to any of the claims 1 to 4, wherein
- the hull (5) has arranged therein a plurality of holds (7a, 7b, 7c, 7d, 7e); and
- one tank module (11a, 11b, 11c, 11d, 11e) is arranged in each of the holds.
6. Tanker (1), preferably a parcel tanker, comprising
- a cargo ship (3) including a hull (5) having a main deck (25) and having arranged
therein at least one hold which hold (7) is accessible via a hatch opening (9) in
the main deck (25);
- a self-contained tank module (11) comprising a number of cargo tanks, wherein
- the tank module (11) is arranged in the hold such that the tank module and the hull
are structurally independent and such that the tank module is removable via said hatch
opening (9) of said hold (7) after a period of use of the tanker;
- the size and shape of the tank module (11) are such that once arranged in the hold
(7), the part of the tank module that is arranged in the hold (7) fits the size and
shape of the hold (7); and
- the hatch opening (9) of the hold is closed by means of the tank module (11);
the tanker (1) further comprising:
- arranged above the main deck (25) an outfitting comprising conduits (55) for loading
a liquid to be transported into the cargo tanks (61, 63, 65, 67) of the tank module
(11) and for unloading the liquid from the cargo tanks (61, 63, 65, 67) after transport;
characterized in that
- the tank module (11) extends above the hatch opening (23) ;
- tank module support members (37, 39, 41) are arranged between the hold (5) and the
tank module (11) for supporting the tank module (11) in the hold (5), wherein the
tank module support members (37, 39, 41) are adapted to allow for relative movement
between the hold (5) and the tank module (11); and
- a water resisting construction is provided between the tank module (11) and the
periphery of the hatch opening (9) that allows for relative movement between the tank
module (11) and the periphery of the hatch opening (9).
7. Tanker according to claim 6,
wherein the periphery of the hatch opening (9) is substantially flush with the side
walls (31) of the hold (7).
8. Tanker according to claim 6 or 7,
wherein
- the water resisting construction comprises a flexible seal (34) sealing a gap between
the top deck of the tank module and the periphery of the hatch opening.
9. Tanker according to any of claims 6 to 8, wherein the outfitting comprises
- a number of rigid pipelines (55) fixedly mounted on the main deck (25) and arranged
beside the at least one hold (7) or over the tank module (11) arranged in the at least
one hold (7); and
- a number of flexible conduits (71) between the tank module and the rigid pipelines
(55) for providing a liquid connection between the tank module (11) and the rigid
pipelines (55);
wherein preferably
- at least one of the rigid pipelines (55) is liquidly connected to a ship load/unload
manifold (53) arranged on the main deck (25) remote from the at least one hold (7).
10. Tanker according to claim 9,
wherein
- a hold manifold (51) is arranged on the main deck (25) adjacent said hatch opening
(9) of said at least one hold (7), said hold manifold (51) comprising a number of
manifold connectors for connecting to the hold manifold said flexible conduits (71),
wherein each hold manifold connector is in liquid communication with one of said rigid
pipelines (55);wherein preferably
- the tank module (11) arranged in a hold (7) comprises a tank module manifold (57)
located adjacent said hold manifold (51), said tank module manifold comprising a number
of manifold connectors for connecting to the hold manifold said flexible conduits
(71).
11. Tanker according to claim 9 or 10, wherein
- at least one of the rigid pipelines (55) is connected to a service facility (77)
remote from the at least one hold (7).
12. Tanker according to any of claims 6 to 11, wherein the outfitting comprises for servicing:
- at least one deck house module (83), preferably removable, arranged on the main
deck (25);
- at least one conduit (85) that provides a liquid connection between the deck house
module (83) and the tank module (11).
13. Tanker according to any of claims 6 to 12, wherein the tank module (11) has a self-contained
structure comprising an external framework, preferably comprising longitudinal and
transverse webs (13, 15).
14. Tanker according to any of claims 6 to 13, wherein the tank module (11) comprises
walls enclosing an inner space, wherein preferably the internal space is divided in
a plurality of tanks, preferably by means of internal walls;
wherein preferably the walls (17) of the tank module are made of stainless steel.
15. Tanker according to any of the claims 6 to 14, wherein
- the hull has arranged therein a plurality of holds (7a, 7b, 7c, 7d, 7e); and
- one tank module (11a, 11b, 11c, 11d, 11e) is arranged in each of the holds.
16. Cargo ship, preferably a converted bulk carrier, including a hull (5) having a main
deck (25) and having arranged therein at least one hold (7) which hold is accessible
via a hatch opening (9) in the main deck (25); wherein
- the hold (7) is adapted for arranging in the hold via the hatch opening (9) a self-contained
tank module (11) according to claim 17 to provide a tanker such that the tank module
(11) and the hull (5) are structurally independent and such that the tank module (11)
is removable via the hatch opening (9) of the hold (7) after a period of use of the
tanker;
wherein
- arranged above the main deck (25) is an outfitting comprising conduits (55) for
loading a liquid to be transported into cargo tanks (61, 63, 65, 67) of the tank module
(11) and for unloading the liquid from the cargo tanks after transport;
wherein
- tank module support members (37, 39, 41) are arranged between the hold and the tank
module for supporting the tank module (11) in the hold (5), wherein the tank module
support members (37, 39, 41) are adapted to allow for relative movement between the
hold (5) and the tank module (11);
and wherein
- the periphery of the hatch opening is adapted to allow a water resisting construction
to be provided between the tank module (11) and the periphery of the hatch opening
(9) which water resisting construction allows for relative movement between the tank
module (11) and the periphery of the hatch opening (9).
17. Self-contained tank module (11), comprising a number of cargo tanks (61, 63, 65, 67)
and adapted for being arranged in the hold (7) in the hull (5) of a cargo ship (1)
according to claim 16 via the hatch opening (9) to provide a tanker, such that the
tank module and the hull are structurally independent and such that the tank module
(11) is removable via the hatch opening (9) of the hold (7) after a period of use
of the tanker, wherein the size and shape of the tank module are such that once arranged
in the hold, the part of the tank module that is arranged in the hold fits the size
and shape of the hold, the tank module (11) extends above the hatch opening (23),
and the hatch opening of the hold is closed by means of the tank module;
wherein
- the tank module (11) is adapted to be supported by the tank module support members
(37, 39, 41) that are arranged between the hold and the tank module for supporting
the tank module (11) in the hold (5) such that relative movement is allowed between
the hold (7) and the tank module (11);
and wherein
- the tank module (11) is adapted to allow a water resisting construction to be provided
between the tank module (11) and the periphery of the hatch opening (9) which water
resisting construction allows for relative movement between the tank module (11) and
the periphery of the hatch opening (9).
1. Verfahren zum Aufbau eines Tankschiffes (1), vorzugsweise eines Parzellentankschiffes
umfassend die Schritte eines:
Bereitstellens eines Schiffskörpers (5) mit einem Hauptdeck (25) und mit wenigstens
einem darin angeordneten Laderaum (7), der über eine Ladelukenöffnung (9) in dem Hauptdeck
(25) zugänglich ist,
Bereitstellens eines in sich abgeschlossenen Tankmoduls (11) umfassend eine Anzahl
von Ladetanks,
Anordnens des in sich abgeschlossenen Tankmoduls (11) in dem Laderaum (7), um ein
Tankschiff bereitzustellen, wobei
das Tankmodul (11) in dem Laderaum (7) derart angeordnet ist, dass das Tankmodul und
der Schiffskörper strukturell unabhängig sind und dass das Tankmodul über die Ladelukenöffnung
(9) des Laderaums (7) nach einem Benutzungszeitraum des Tankschiffs herausnehmbar
ist,
die Größe und Form des Tankmoduls (11) derart sind, dass sobald es in dem Laderaum
(7) angeordnet ist, der Teil des Tankmoduls, der in dem Laderaum (7) angeordnet ist,
sich der Größe und Form des Laderaums (7) anpasst, und
die Ladelukenöffnung (9) des Laderaums mittels des Tankmoduls (11) geschlossen wird,
wobei das Verfahren weiter die Schritte eines:
Anordnens einer Ausstattung umfassend Kanäle (55) zum Einbringen einer zu transportierenden
Flüssigkeit in die Ladetanks (61, 63, 65, 67) des Tankmoduls (11) und zum Entladen
der Flüssigkeit aus den Ladetanks nach einem Transport über dem Hauptdeck (25),
wobei sich das einmal in dem Laderaum (7) angeordnete Tankmodul (11) oberhalb der
Ladelukenöffnung (23) erstreckt,
Tankmodul-Stützglieder (37, 39, 41) zwischen dem Laderaum (7) und dem Tankmodul (11)
zum Stützen des Tankmoduls (11) in dem Laderaum (7) angeordnet sind, wobei die Tankmodul-Stützglieder
(37, 39, 41) angepasst sind, eine relative Bewegung zwischen dem Laderaum (7) und
dem Tankmodul (11) zuzulassen und
eine wasserbeständige Konstruktion zwischen dem Tankmodul (11) und der Umgebung der
Ladelukenöffnung (9) vorgesehen ist, die eine relative Bewegung zwischen dem Tankmodul
(11) und der Umgebung der Ladelukenöffnung (9) zulässt.
2. Verfahren gemäß Anspruch 1, wobei der Schiffskörper (5) ein Schiffskörper eines vorerrichteten
Trockenmassengut-Frachtschiffs (19) mit wenigstens einem darin angeordneten Laderaum
(7) ist, der über eine Ladelukenöffnung (9) zugänglich ist, wobei das Tankmodul (11)
in dem Laderaum (7) über die Ladelukenöffnung (9) angeordnet wird.
3. Verfahren gemäß Anspruch 1, wobei das Vorsehen eines Schiffskörpers (5) mit wenigstens
einem darin angeordneten Laderaum (7), welcher Laderaum über eine Ladelukenöffnung
(9) zugänglich ist, den Schritt eines:
Umwandelns eines für den Massenguttransport von trockener Fracht konstruierten Frachtschiffs
(19) wie eines Massengutfrachters derart, dass es wenigstens einen Laderaum (7) enthält,
der über eine Ladelukenöffnung (9) zugänglich ist und der zum Anordnen des in sich
abgeschlossenen Tankmoduls (11) in dem Laderaum (7) über die Ladelukenöffnung (9)
zum Bereitstellen eines Tankschiffs (1) angepasst ist, wobei das umzuwandelnde Frachtschiff
(19) vorzugsweise einen Schiffskörper (5) mit wenigstens einem darin angeordneten
Laderaum (7) enthält, der über eine Ladelukenöffnung (23) zugänglich ist, wobei das
Umwandeln des Frachtschiffs den Schritt eines Ausdehnens der Ladelukenöffnung (23)
des Laderaums (7) des umzuwandelnden Frachtschiffs (19) umfasst, sodass die Umgebung
der ausgedehnten Ladelukenöffnung (9) im Wesentlichen bündig mit den Seitenwänden
(31) des Laderaums (7) ist.
4. Verfahren gemäß einem der Ansprüche 1 bis 3 weiter umfassend den Schritt eines Entfernens
des Tankmoduls (11a) über die Ladenlukenöffnung (9a) nach einem Benutzungszeitraum
des Tankschiffes (1),
vorzugsweise weiter umfassend den Schritt eines Anordnens eines Ersatz-Tankmoduls
(11f) in dem Laderaum über die Ladelukenöffnung (9a) nach dem Schritt des Entfernens
des Tankmoduls (11a).
5. Verfahren nach einem der Ansprüche 1 bis 4, wobei
eine Vielzahl von Laderäumen (7a, 7b, 7c, 7d, 7e) in dem Schiffskörper (5) angeordnet
sind und
ein Tankmodul (11a, 11b, 11c, 11d, 11e) in jedem der Laderäume angeordnetwird.
6. Tankschiff (1), vorzugsweise ein Parzellentankschiff, umfassend
ein Frachtschiff (3) enthaltend einen Schiffskörper (5) mit einem Hauptdeck (25) und
mit wenigstens einem darin angeordneten Laderaum, welcher Laderaum (7) über eine Ladelukenöffnung
(9) in dem Hauptdeck (25) zugänglich ist,
ein in sich abgeschlossenes Tankmodul (11) umfassend eine Anzahl von Ladetanks, wobei
das Tankmodul (11) in dem Laderaum (7) derart angeordnet ist, dass das Tankmodul und
der Schiffskörper strukturell unabhängig sind und dass das Tankmodul über die Ladelukenöffnung
(9) des Laderaums (7) nach einem Benutzungszeitraum des Tankschiffes herausnehmbar
ist,
die Größe und Form des Tankmoduls (11) derart sind, dass sobald dieses in dem Laderaum
(7) angeordnet ist, der Teil des Tankmoduls, der in dem Laderaum (7) angeordnet ist,
sich an die Größe und Form des Laderaums (7) anpasst und
die Ladelukenöffnung (9) des Laderaums durch Mittel des Tankmoduls (11) geschlossen
wird,
wobei das Tankschiff (1) weiter umfasst:
eine über dem Hauptdeck (25) angeordnete Ausstattung umfassend Kanäle (55) zum Einbringen
einer zu transportierenden Flüssigkeit in die Ladetanks (61, 63, 65, 67) des Tankmoduls
(11) und zum Entladen der Flüssigkeit aus den Ladetanks (61, 63, 65, 67) nach einem
Transport,
dadurch gekennzeichnet, dass
das Tankmodul sich oberhalb der Ladelukenöffnung (23) erstreckt,
Tankmodul-Stützglieder (37, 39, 41) zwischen dem Laderaum (7) und dem Tankmodul (11)
zum Stützen des Tankmoduls (11) in dem Laderaum (7) angeordnet sind, wobei die Tankmodul-Stützglieder
(37, 39, 41) angepasst sind, eine relative Bewegung zwischen dem Laderaum (7) und
dem Tankmodul (11) zuzulassen und
eine wasserbeständige Konstruktion zwischen dem Tankmodul (11) und der Umgebung der
Ladelukenöffnung (9) vorgesehen ist, die eine relative Bewegung zwischen dem Tankmodul
(11) und der Umgebung der Ladelukenöffnung (9) zulässt.
7. Tankschiff gemäß Anspruch 6, wobei die Umgebung der Ladelukenöffnung (9) im Wesentlichen
bündig mit den Seitenwänden (31) des Laderaums (7) ist.
8. Tankschiff gemäß Anspruch 6 oder 7, wobei
die wasserbeständige Konstruktion eine flexible Dichtung (34) umfasst, die eine Lücke
zwischen dem Hauptdeck des Tankmoduls und der Umgebung der Ladelukenöffnung abdichtet.
9. Tankschiff gemäß einem der Ansprüche 6 bis 8, wobei die Ausstattung umfasst:
eine Anzahl von unbiegsamen, feststehend auf dem Hauptdeck (25) montierten und neben
dem wenigstens einen Laderaum (7) angeordneten oder über dem Tankmodul (11) in dem
wenigstens einen Laderaum (7) angeordneten Rohrleitungen (55) und
eine Anzahl von flexiblen Kanälen (71) zwischen dem Tankmodul und den unbiegsamen
Rohrleitungen (55) zum Bereitstellen einer Flüssigkeitsverbindung zwischen dem Tankmodul
(11) und den unbiegsamen Rohrleitungen (55),
wobei vorzugsweise
wenigstens eine der unbiegsamen Rohrleitungen (55) fließverbunden mit einem auf dem
Hauptdeck (25) von dem wenigstens einen Laderaum (7) entfernt angeordneten Schiffslade-/Schiffsentlade-Verteiler
(53) verbunden ist.
10. Tankschiff gemäß Anspruch 9, wobei
eine Halteverteilung auf dem Hauptdeck (25) benachbart zu der Ladelukenöffnung (9)
des wenigstens einen Laderaums (7) angeordnet ist, wobei die Halteverteilung (51)
eine Anzahl von Verteilungsverbindern zum Verbinden der flexiblen Kanäle (71) mit
der Halteverteilung umfasst, wobei jeder Halteverteilungs-Verbinder in einer Flüssigkeitsverbindung
mit einer der unbiegsamen Rohrleitungen (55) ist, wobei vorzugsweise
das in einem Laderaum (7) angeordnete Tankmodul (11) eine an der Halteverteilung (51)
angrenzend gelegene Tankmodul-Verteilung (57) umfasst, wobei die Tankmodul-Verteilung
eine Anzahl von Verteilungsverbindern zur Verbindung der flexiblen Kanäle (71) mit
der Halteverteilung umfasst.
11. Tankschiff gemäß Anspruch 9 oder 10, wobei
wenigstens eine der unbiegsamen Rohrleitungen (55) mit einer Wartungseinrichtung (77)
entfernt von dem wenigstens einen Laderaum (7) verbunden ist.
12. Tankschiff gemäß einem der Ansprüche 6 bis 11, wobei die Ausstattung zur Wartung umfasst:
wenigstens ein vorzugsweise entfernbar auf dem Hauptdeck (25) angeordnetes Deckhaus-Modul
(83),
wenigstens einen Kanal (85), der eine Flüssigkeitsverbindung zwischen dem Deckhaus-Modul
(83) und dem Tankmodul (11) bereitstellt.
13. Tankschiff gemäß einem der Ansprüche 6 bis 12, wobei das Tankmodul (11) eine in sich
abgeschlossene Struktur umfassend ein äußeres Rahmentragwerk, vorzugsweise umfassend
longitudinale und transversale Rippen (13, 15) umfasst.
14. Tankschiff gemäß einem der Ansprüche 6 bis 13, wobei das Tankmodul (11) einen Innenraum
einschließende Wände umfasst, wobei der Innenraum vorzugsweise in eine Vielzahl von
Tanks, vorzugsweise mittels Innenwänden, unterteilt ist,
wobei die Wände (17) des Tankmoduls vorzugsweise aus rostfreiem Stahl hergestellt
sind.
15. Tankschiff gemäß einem der Ansprüche 6 bis 14, wobei
der Schiffskörper eine Vielzahl von darin angeordneten Frachträume (7a, 7b, 7c, 7d,
7e) aufweist und
ein Tankmodul (11a, 11b, 11c, 11d, 11e) in jedem der Frachträume angeordnet ist.
16. Frachtschiff, vorzugsweise ein umgewandelter Massengutfrachter, enthaltend einen Schiffskörper
(5) mit einem Hauptdeck (25) und mit wenigstens einem darin angeordneten Laderaum
(7), welcher Laderaum über eine Ladelukenöffnung (9) in dem Hauptdeck (25) zugänglich
ist, wobei
der Laderaum (7) zum Anordnen eines in sich abgeschlossenen Tankmoduls (11) gemäß
Anspruch 17 in dem Laderaum über die Ladelukenöffnung (9) angepasst ist, um ein Tankschiff
derart bereitzustellen, dass das Tankmodul (11) und der Schiffskörper (5) strukturell
unabhängig sind und dass das Tankmodul (11) über die Ladelukenöffnung (9) des Laderaums
(7) nach einem Benutzungszeitraum des Tankschiffes entfernbar ist,
wobei
über dem Hauptdeck (25) eine Kanäle (55) zum Einbringen einer zu transportierenden
Flüssigkeit in Ladetanks (61, 63, 65, 67) des Tankmoduls (11) und zum Entladen der
Flüssigkeit aus den Ladetanks nach einem Transport umfassende Ausstattung angeordnet
ist,
wobei
Tankmodul-Stützglieder (37, 39, 41) zwischen dem Laderaum und dem Tankmodul zum Stützen
des Tankmoduls (11) in dem Laderaum (7) angeordnet sind, wobei die Tankmodul-Stützglieder
(37, 39, 41) angepasst sind, eine Relativbewegung zwischen dem Laderaum (7) und dem
Tankmodul (11) zuzulassen,
und wobei
die Umgebung der Ladelukenöffnung angepasst ist, eine wasserbeständige, zwischen dem
Tankmodul (11) und der Umgebung der Ladelukenöffnung (9) vorzusehende Konstruktion
zuzulassen, welche wasserbeständige Konstruktion eine Relativbewegung zwischen dem
Tankmodul (11) und der Umgebung der Ladelukenöffnung (9) zulässt.
17. In-sich-abgeschlossenes Tankmodul (11) umfassend eine Anzahl von Ladetanks (61, 63,
65, 67) und angepasst, in dem Laderaum (7) in dem Schiffskörper (5) eines Frachtschiffs
(1) gemäß Anspruch 16 über die Ladelukenöffnung (9) angeordnet zu sein, um ein Tankschiff
bereitzustellen, sodass das Tankmodul und der Schiffskörper strukturell unabhängig
sind und dass das Tankmodul (11) über die Ladelukenöffnung (9) des Laderaums (7) nach
einem Benutzungszeitraum des Tankschiffes herausnehmbar ist, wobei die Größe und Form
des Tankmoduls derart sind, dass sobald es in dem Laderaum angeordnet ist, der Teil
des Tankmoduls, der in dem Laderaum angeordnet ist, sich an die Größe und Form des
Laderaums anpasst, das Tankmodul (11) sich oberhalb der Ladelukenöffnung (23) erstreckt
und die Ladelukenöffnung des Laderaums mittels des Tankmoduls geschlossen ist,
wobei
das Tankmodul (11) angepasst ist, von den Tankmodul-Stützgliedern (37, 39, 41) gestützt
zu werden, die zwischen dem Laderaum und dem Tankmodul zum Stützen des Tankmoduls
(11) in dem Laderaum (7) derart angeordnet sind, dass eine Relativbewegung zwischen
dem Laderaum (7) und dem Tankmodul (11) zugelassen ist,
und wobei
das Tankmodul (11) angepasst ist, ein Vorsehen einer wasserbeständigen Konstruktion
zwischen dem Tankmodul (11) und der Umgebung der Ladelukenöffnung (9) zuzulassen,
welche wasserbeständige Konstruktion eine Relativbewegung zwischen dem Tankmodul (11)
und der Umgebung der Ladelukenöffnung (9) zulässt.
1. Procédé pour la construction d'une citerne (1), de préférence d'un navire-citerne
à double spécialisation, comprenant les étapes consistant à :
prévoir une coque (5) ayant un pont principal (25) et ayant agencé à l'intérieur de
cette dernière, au moins une cale (7) qui est accessible via une ouverture d'écoutille
(9) dans le pont principal (25) ;
prévoir un module de conteneur autonome (11) comprenant un certain nombre de citernes
de marchandise ;
agencer, dans la cale (7), le module de conteneur autonome (11) pour fournir une citerne,
dans lequel :
le module de conteneur (11) est agencé dans la cale de sorte que le module de conteneur
et la coque sont structurellement indépendants et de sorte que le module de conteneur
peut être retiré via ladite ouverture d'écoutille (9) de la cale (7) après une période
d'utilisation de la citerne ;
la taille et la forme du module de conteneur (11) sont telles, qu'une fois agencée
dans la cale (7), la partie du module de conteneur qui est agencée dans la cale (7)
s'adapte à la taille et à la forme de la cale (7) ; et
l'ouverture d'écoutille (9) de la cale est fermée au moyen du module de conteneur
(11) ;
le procédé comprenant en outre l'étape consistant à :
agencer, au-dessus du pont principal (25), un appareillage comprenant des conduits
(55) pour charger un liquide à transporter dans les citernes de marchandise (61, 63,
65, 67) du module de conteneur (11) et pour décharger le liquide des citernes de marchandise
après le transport ;
dans lequel :
une fois agencé dans la cale (7), le module de conteneur (11) s'étend au-dessus de
l'ouverture d'écoutille (23) ;
des éléments de support de module de conteneur (37, 39, 41) sont agencés entre la
cale (5) et le module de conteneur (11) pour supporter le module de conteneur (11)
dans la cale (5), dans lequel les éléments de support de module de conteneur (37,
39, 41) sont adaptés pour permettre un mouvement relatif entre la cale (5) et le module
de conteneur (11) ; et
une construction résistante à l'eau est prévue entre le module de conteneur (11) et
la périphérie de l'ouverture d'écoutille (9) qui permet un mouvement relatif entre
le module de conteneur (11) et la périphérie de l'ouverture d'écoutille (9).
2. Procédé selon la revendication 1, dans lequel la coque (5) est une coque d'un navire
de marchandise sèche en vrac prédéfini (19) ayant, agencée à l'intérieur de cette
dernière, ladite au
moins une cale (7) qui est accessible via une ouverture d'écoutille (9), dans lequel
ledit module de conteneur (11) est agencé dans ladite cale (7) via ladite ouverture
d'écoutille (9).
3. Procédé selon la revendication 1, dans lequel l'étape consistant à prévoir une coque
(5) ayant, agencée à l'intérieur de cette dernière, au moins une cale (7), laquelle
cale (7) est accessible via une ouverture d'écoutille (9), comprend l'étape consistant
à :
convertir un navire de marchandise (19) construit pour le transport en vrac de marchandise
sèche, tel qu'un vraquier, de sorte qu'il comprend au moins une cale (7) qui est accessible
via une ouverture d'écoutille (9) et qui est adapté pour agencer dans ladite cale
(7), via ladite ouverture d'écoutille (9), le module de conteneur autonome (11) pour
fournir une citerne (1) ;
dans lequel de préférence le navire de marchandise (19) à convertir comprend une coque
(5) ayant, agencée à l'intérieur de cette dernière, au moins une cale (7) qui est
accessible via une ouverture d'écoutille (23), dans lequel l'étape consistant à convertir
le navire de marchandise comprend l'étape consistant à faire subir une expansion à
l'ouverture d'écoutille (23) de la cale (7) du navire de marchandise (19) à convertir
de sorte que la périphérie de l'ouverture d'écoutille (9) expansée est sensiblement
de niveau avec les parois latérales (31) de la cale (7).
4. Procédé selon l'une quelconque des revendications 1 à 3, comprenant en outre l'étape
consistant à retirer, via l'ouverture d'écoutille (9a), le module de conteneur (11a)
après une période d'utilisation de la citerne (1) ;
comprenant en outre de préférence après l'étape consistant à retirer le module de
conteneur (11a), l'étape consistant à agencer, via l'ouverture d'écoutille (9a), un
module de conteneur de remplacement (11f) dans la cale.
5. Procédé selon l'une quelconque des revendications 1 à 4, dans lequel :
la coque (5) a, agencées à l'intérieur de cette dernière, une pluralité de cales (7a,
7b, 7c, 7d, 7e) ; et
un module de conteneur (11a, 11b, 11c, 11d, 11e) est agencé dans chacune des cales.
6. Citerne (1), de préférence un navire-citerne à double spécialisation, comprenant :
un navire de marchandise (3) comprenant une coque (5) ayant un pont principal (25)
et ayant, agencée à l'intérieur de cette dernière, au moins une cale, laquelle cale
(7) est accessible via une ouverture d'écoutille (9) dans le pont principal (25) ;
un module de conteneur autonome (11) comprenant un certain nombre de conteneurs de
marchandise, dans laquelle :
le module de conteneur (11) est agencé dans la cale de sorte que le module de conteneur
et la coque sont structurellement indépendants et de sorte que le module de conteneur
peut être retiré via ladite ouverture d'écoutille (9) de ladite cale (7) après une
période d'utilisation de la citerne ;
la taille et la forme du module de conteneur (11) sont telles, qu'une fois agencée
dans la cale (7), la partie du module de conteneur qui est agencée dans la cale (7)
s'adapte à la taille et à la forme de la cale (7) ; et
l'ouverture d'écoutille (9) de la cale est fermée au moyen du module de conteneur
(11) ;
la citerne (1) comprenant en outre :
agencé au-dessus du pont principal (25), un appareillage comprenant des conduits (55)
pour charger un liquide à transporter dans les conteneurs de marchandise (61, 63,
65, 67) du module de conteneur (11) et pour décharger le liquide des conteneurs de
marchandise (61, 63, 65, 67) après le transport ;
caractérisée en ce que :
le module de conteneur (11) s'étend au-dessus de l'ouverture d'écoutille (23) ;
des éléments de support de module de conteneur (37, 39, 41) sont agencés entre la
cale (5) et le module de conteneur (11) pour supporter le module de conteneur (11)
dans la cale (5), dans lequel les éléments de support de module de conteneur (37,
39, 41) sont adaptés pour permettre un mouvement relatif entre la cale (5) et le module
de conteneur (11) ; et
une construction résistante à l'eau est prévue entre le module de conteneur (11) et
la périphérie de l'ouverture d'écoutille (9) qui permet un mouvement relatif entre
le module de conteneur (11) et la périphérie de l'ouverture d'écoutille (9).
7. Citerne selon la revendication 6,
dans laquelle la périphérie de l'ouverture d'écoutille (9) est sensiblement de niveau
avec les parois latérales (31) de la cale (7).
8. Citerne selon la revendication 6 ou 7, dans laquelle :
la construction résistante à l'eau comprend un joint d'étanchéité flexible (34) scellant
un espace entre le pont supérieur du module de conteneur et la périphérie de l'ouverture
d'écoutille.
9. Citerne selon l'une quelconque des revendications 6 à 8, dans laquelle l'appareillage
comprend :
un certain nombre de canalisations rigides (55) montées de manière fixe sur le pont
principal (25) et agencées à côté de la au moins une cale (7) ou sur le module de
conteneur (11) agencé dans la au moins une cale (7) ; et
un certain nombre de conduits flexibles (71) entre le module de conteneur et les canalisations
rigides (55) pour fournir un raccordement de liquide entre le module de conteneur
(11) et les canalisations rigides (55) ;
dans laquelle, de préférence :
au moins l'une des canalisations rigides (55) est raccordée, de manière liquide, à
un collecteur de charge/décharge de navire (53) agencé sur le pont principal (25)
à distance de la au moins une cale (7).
10. Citerne selon la revendication 9, dans laquelle :
un collecteur de cale (51) est agencé sur le pont principal (25) de manière adjacente
à ladite ouverture d'écoutille (9) de ladite au moins une cale (7), ledit collecteur
de cale (51) comprenant un certain nombre de connecteurs de collecteur pour raccorder
au collecteur de cale, lesdits conduits flexibles (71), dans lequel chaque connecteur
de collecteur de cale est en communication de liquide avec l'une desdites canalisations
rigides (55) ; dans laquelle de préférence :
le module de conteneur (11) agencé dans une cale (7) comprend un collecteur de module
de conteneur (57) positionné de manière adjacente audit collecteur de cale (51), ledit
collecteur de module de conteneur comprenant un certain nombre de connecteurs de collecteur
pour raccorder au collecteur de cale, lesdits conduits flexibles (71).
11. Citerne selon la revendication 9 ou 10, dans laquelle :
au moins l'une des canalisations rigides (55) est raccordée à une installation de
service (77) à distance de la au moins une cale (7).
12. Citerne selon l'une quelconque des revendications 6 à 11, dans laquelle l'appareillage
comprend l'entretien :
d'au moins un module de logement de pont (83), de préférence amovible, agencé sur
le pont principal (25) ;
d'au moins un conduit (85) qui fournit un raccordement de liquide entre le module
de logement de pont (83) et le module de conteneur (11).
13. Citerne selon l'une quelconque des revendications 6 à 12, dans laquelle le module
de conteneur (11) a une structure autonome comprenant un châssis externe, de préférence
comprenant des âmes longitudinales et transversale (13, 15).
14. Citerne selon l'une quelconque des revendications 6 à 13, dans laquelle le module
de conteneur (11) comprend des parois enfermant un espace interne, dans laquelle de
préférence l'espace interne est divisé en une pluralité de conteneurs, de préférence
au moyen de parois internes ;
dans laquelle de préférence les parois (17) du module de conteneur sont réalisées
à partir d'acier inoxydable.
15. Citerne selon l'une quelconque des revendications 6 à 14, dans laquelle :
la coque a, agencées à l'intérieur de cette dernière, une pluralité de cales (7a,
7b, 7c, 7d, 7e) ; et
un module de conteneur (11a, 11b, 11c, 11d, 11e) est agencé dans chacune des cales.
16. Navire de marchandise, de préférence un vraquier converti comprenant une coque (5)
ayant un pont principal (25) et ayant, agencée à l'intérieur de cette dernière, au
moins une cale (7), laquelle cale est accessible via une ouverture d'écoutille (9)
dans le pont principal (25) ; dans lequel :
la cale (7) est adaptée pour agencer dans la cale, via l'ouverture d'écoutille (9),
un module de conteneur autonome (11) selon la revendication 17, pour fournir une citerne
de sorte que le module de conteneur (11) et la coque (5) sont structurellement indépendants
et de sorte que le module de conteneur (11) peut être retiré via l'ouverture d'écoutille
(9) de la cale (7) après une période d'utilisation de la citerne ;
dans lequel :
agencé au-dessus du pont principal (25), on trouve un appareillage comprenant des
conduits (55) pour charger un liquide à transporter dans les conteneurs de marchandise
(61, 63, 65, 67) du module de conteneur (11) et pour décharger le liquide des modules
de conteneur après le transport ;
dans lequel :
des éléments de support de module de conteneur (37, 39, 41) sont agencés entre la
cale et le module de conteneur pour supporter le module de conteneur (11) dans la
cale (5), dans lequel les éléments de support de module de conteneur (37, 39, 41)
sont adaptés pour permettre un mouvement relatif entre la cale (5) et le module de
conteneur (11) ;
et dans lequel :
la périphérie de l'ouverture d'écoutille est adaptée pour permettre de prévoir une
construction résistante à l'eau entre le module de conteneur (11) et la périphérie
de l'ouverture d'écoutille (9), laquelle construction résistante à l'eau permet un
mouvement relatif entre le module de conteneur (11) et la périphérie de l'ouverture
d'écoutille (9).
17. Module de conteneur autonome (11) comprenant un certain nombre de conteneurs de marchandise
(61, 63, 65, 67) et adapté pour être agencé dans la cale (7) dans la coque (5) d'un
navire de marchandise (1) selon la revendication 16, via l'ouverture d'écoutille (9)
pour fournir une citerne, de sorte que le module de conteneur et la coque sont structurellement
indépendants et de sorte que le module de conteneur (11) peut être retiré via l'ouverture
d'écoutille (9) de la cale (7) après une période d'utilisation de la citerne, dans
lequel la taille et la forme du module de conteneur sont telles, qu'une fois agencée
dans la cale, la partie du module de conteneur qui est agencée dans la cale, s'adapte
à la taille et à la forme de la cale, le module de conteneur (11) s'étend au-dessus
de l'ouverture d'écoutille (23), et l'ouverture d'écoutille de la cale est fermée
au moyen du module de conteneur ;
dans lequel :
le module de conteneur (11) est adapté pour être supporté par les éléments de support
de module de conteneur (37, 39, 41) qui sont agencés entre la cale et le module de
conteneur pour supporter le module de conteneur (11) dans la cale (5) de sorte que
un mouvement relatif est autorisé entre la cale (7) et le module de conteneur (11)
;
et dans lequel :
le module de conteneur (11) est adapté pour permettre de prévoir une construction
résistante à l'eau entre le module de conteneur (11) et la périphérie de l'ouverture
d'écoutille (9), laquelle construction résistante à l'eau permet un mouvement relatif
entre le module de conteneur (11) et la périphérie de l'ouverture d'écoutille (9).