• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Device for supplying fuel to an energy production installation on board a liquefied gas transport vessel from at least one liquefied gas tank (2) of said vessel, comprising a pump (20) arranged in the vessel. bottom of the tank and a reservoir (23) arranged in the cellar around the pump and intended to maintain a suction of the pump in an immersed state, characterized in that it comprises a liquid ejector (12) arranged in the tank so as to be able to suck liquefied gas at the bottom of the tank, and a liquid circuit (21,22,24,250) connecting on the one hand an outlet of the pump to an inlet of the ejector and on the other hand a outlet of the ejector to the tank.
    公开号:BE1019090A3
    申请号:E2009/0062
    申请日:2009-02-05
    公开日:2012-03-06
    发明作者:Laurent Spittael;Camille Hypousteguy;Yann Xitra
    申请人:Gaztransp Et Technigaz;
    IPC主号:
    专利说明:

    DEVICE FOR FUEL SUPPLYING A PLANT POWER GENERATION PLANT
    The present invention relates to a device for supplying fuel to an energy production installation on board a vessel for transporting liquefied gas from a liquefied gas tank of said vessel.
    In a liquefied gas transport vessel, for example of the LNG type, an energy production facility is provided to meet the energy requirements of the operation of the ship, in particular for the propulsion of the ship and / or the production of electricity for the vessels. equipment on board. Such an installation commonly comprises thermal machines consuming gas from an evaporator which is fed from the cargo of liquefied gas transported in the vessels of the vessel.
    FR-A-2837783 provides for feeding such an evaporator and / or other systems necessary for propulsion by means of a submerged pump at the bottom of a tank of the vessel. A pump thus placed has drawbacks when it is desired to supply the propulsion of a gas LNG carrier during a trip on ballast, that is to say when the tanks have been unloaded. In this case, it is necessary to leave at the bottom of the tanks a bead of liquefied gas sufficient to allow the operation of the pump. Indeed, if the liquid level is too low, the pump is sometimes pumped a mixture of liquid and gas due to the movements of the cargo, which may defuse or even seriously damage the pump (bad cooling, drop in intensity, etc.) FR-A-2832783 proposes to avoid these problems by surrounding the pump, always placed at the bottom of the tank, a capture chamber provided with non-return valves, in order to ensure a continuous immersion of the pump suction even when the tank is not full and the ship is subject to rolling and pitching movements. The reliability and effectiveness of this device are limited, in particular because the valves can get stuck and no longer perform their function, and because the filling of the capture chamber requires sufficiently regular movements of the waves, which by submersion come fill the enclosure.
    FR-A-2876981 discloses a feed device in which there is provided a pump on the deck of the vessel, connected to a liquid ejector arranged in the bottom of the tank. This solution requires complementary elements on the deck of the ship, including an auxiliary tank whose thermal insulation must be ensured.
    The present invention aims to provide a feeding device which does not have at least some of the aforementioned drawbacks of the prior art. In particular, the present invention aims to provide a pump feed device arranged in the tank, in which the risk of defusing or damaging the pump is avoided or reduced.
    For this, the invention provides a device for supplying fuel to an energy production installation on board a liquefied gas transport vessel from at least one liquefied gas tank of said vessel, comprising an arranged pump. in the bottom of the tank and a tank arranged in the tank around the pump and intended to maintain suction of the pump in a submerged state, characterized in that it comprises a liquid ejector arranged in the tank so as to be able to drawing liquefied gas at the bottom of the tank, and a liquid circuit connecting on the one hand an outlet of the pump to an inlet of the ejector and on the other hand an outlet of the ejector tank.
    For the purposes of the invention, a liquid ejector, also known as a liquid jet pump, designates a kind of pump comprising a nozzle in which the live force of a stream of liquid injected under pressure causes the suction of the liquid which arrives on the periphery of the nozzle.
    The ejector in general allows suction with a lower liquid level than a conventional pump, which implies the possibility of filling the tank to maintain the suction of the pump in a submerged state, even when the level of liquid in the tank is low. It is therefore possible to discharge more liquid at the unloading terminal of the ship. In addition, the swell does not influence the submerged condition of the pump suction.
    The ejector can operate empty (without liquid to suck) without risk of damage or defusing. The absence of moving mechanical parts implies easy installation and high reliability, and little or no maintenance requiring a technical stop of the ship.
    According to one embodiment, the reservoir is located at a distance from the ejector. This allows a great freedom of positioning; ejector and tank, which are connected by the liquid circuit. For example, the ejector can be arranged in the tank to collect liquid where the probability of having it is highest, this considering the movements of liquid in the tank during transport by ship. The pump and reservoir assembly can be placed in the tank taking into account its size and its mechanical strength.
    According to another embodiment, the ejector is in contact with or located in the reservoir. The assembly formed by the reservoir and the ejector can be pre-assembled and easily installed in the tank. The liquid circuit is simpler.
    Advantageously, the reservoir has a profile facilitating the recovery of liquid by a wave movement of the liquid of the tank. In addition, the liquid circuit connects the outlet of the ejector tank.
    According to a particular embodiment, the reservoir has a volume of less than 1 m 3.
    Advantageously, the ejector comprises a suction tube whose inlet is located at a height less than the height of the suction of the pump.
    Preferably, the supply device comprises a supply line connecting the liquid circuit to the energy production facility.
    Advantageously, the supply line is connected to the liquid circuit between the outlet of the ejector and the reservoir. In this case, the flow rate to be supplied by the pump is limited. In addition, it is not necessary to provide a return line between the supply line and the reservoir.
    According to a particular embodiment, said fluid circuit comprises a pump control valve downstream of the pump and upstream of the supply pipe, and an ejector control valve downstream of the pipe of the pump. feed and upstream of the ejector.
    Advantageously, the supply device comprises a return line connecting the supply line to the tank, a return control valve arranged on the return line and controlled by a pressure sensor arranged on the supply line.
    Preferably, the feed device comprises an unloading pump connected to said liquid circuit upstream of the ejector.
    The invention also proposes a liquefied gas transport vessel comprising at least one tank of liquefied gas and an onboard energy production facility, characterized in that it comprises a feed device according to the invention above connecting said tank to said plant for supplying fuel to said plant from said tank.
    The invention will be better understood, and other objects, details, characteristics and advantages thereof will appear more clearly in the course of the following description of several particular embodiments of the invention, given solely for illustrative and non-limiting purposes. with reference to the accompanying drawings. In these drawings: FIG. 1 is a block diagram of a supply device according to a first embodiment of the invention, FIG. 2 is a block diagram of a supply device according to a second embodiment of the invention. invention, and Figure 3 is a partial block diagram of a supply device according to a third embodiment of the invention.
    A LNG tanker comprises tanks, for example four in number, sealed and insulated for storing the cargo of liquefied gas, for example a gas with a high methane content at about -160 ° C. At the rear of the ship is provided a machine room which comprises thermal machines operating by combustion of gas from the tanks, for example steam generating boilers for supplying steam turbines for the propulsion of the ship and / or electricity production.
    When the vessel is traveling with its full tanks, the natural evaporation of gas in the tanks usually produces a large amount of fuel to keep the machinery operating in the engine room. Typically, these evaporation gases are collected by a steam collector (not shown) flowing on the upper deck of the vessel. However, when the ship is operating on ballast, that is to say after unloading its tanks, it is necessary to pump the heel of liquefied gas remaining in one or more of the tanks to feed the propulsion system of the ship and the vessel is equipped for this a supply device as shown in Figure 1.
    The feeder of Figure 1 comprises a liquid ejector 12 arranged at the bottom of a tank 2. Such a liquid ejector is well known to those skilled in the art, so it is useless to give a detailed description. Schematically, it comprises a convergent / divergent nozzle through which a liquid stream is circulated which serves as drive current. It also comprises a suction tube 14 oriented towards the bottom of the tank and which opens laterally into the nozzle. The driving current in the nozzle causes suction of liquefied gas through the suction tube 14 as indicated by the arrow 15.
    To create the drive current, there is provided a pump 20 arranged in the bottom of the tank 2. The output of the pump 20 is connected by a pipe 24, a pipe 250 and a pipe 21 to the inlet 16 of the ejector. A pipe 22 connects the outlet 13 of the ejector to a tank 23, arranged in the tank 2 around the pump 20. The tank 23 is designed to receive the liquefied gas from the pipe 22 or a wave of liquid. It has a volume less than 1 m, and is used to temporarily store the liquid ejected by the ejector 12 to maintain the suction of the pump 20 in a submerged state. The lines 21, 22, 24, 250 and the reservoir 23 thus form a liquid circuit which allows the circulation of a driving current through the ejector 12 loop.
    A control valve 25 is mounted on line 250 between the outlet of pump 20 and the inlet of ejector 12 to regulate the flow of driving liquid in line 21. The opening of valve 25 is regulated. automatically. Such a regulation prevents the level of liquid 27 in the tank 23 from going down beyond a certain threshold, which could lead to the defusing of the pump 20 and its damage. The reservoir 23 constitutes, in operation, a reserve of liquid which makes it possible to ensure a continuous inlet flow into the pump 20 even if the ejector 12 is temporarily emerging, for example due to the movement of cargo to the swell. , and therefore the flow of liquefied gas at the outlet of the ejector 12 is irregular.
    The presence of the tank 23 thus allows to further lower the filling level of the tank 2 which a machine feed is made possible. The ejector 12 is indeed capable of operating intermittently, that is to say, to capture the wave of liquefied gas that goes back and forth at the bottom of the tank at each passage at the level of the ejector. In FIG. 1, the level of liquid in the tank 2 is represented below the suction of the pump 20, but above the inlet of the suction tube 14. The reservoir 23 allows correct operation in this case. state because it maintains the level 27 above the suction of the pump.
    A supply pipe 28 branches on the pipe 250 between the pump outlet 20 and the valve 25. The supply pipe 28 makes it possible to bring a portion of the liquefied gas flowing in the pipe 250 towards the installation energy production device to be fed into the machine room 5. To regulate the outflow through the supply line 28, it is provided with a flow control valve 29 whose opening and closing are controlled according to the consumption of the machines by means of a request signal represented by the arrow 30 emanating from a control device of the thermal machines in the machine room 5. Downstream of the valve 29, the driving of supply 28 opens into a vaporizer 31 for vaporizing the liquefied gas for its supply in gaseous form to the machines to be fed. A return line 32 branches on the supply line 28 upstream of the valve 29 and opens into the tank 23. The return line 32 allows the return of liquefied gas to the tank 23 when the pressure in the line supply 28 is too high. For this, the pipe 32 is provided with a control valve 33 regulated according to the measurement signal of a pressure gauge 34 measuring the pressure in the pipe 28. Upstream of the valve 29, a pipe 35 branches on the supply line 28 and opens into auxiliary systems 36.
    In operation, the flow rate downstream of the pump 20 is controlled by the valve 200 arranged on the pipe 24. The valve 200 is equipped with a non-return valve 201.
    To prime the feed device, it may be necessary to feed the liquid ejector 12 by means other than the pump 20. For this, the unloading pump 54 or any other pump via the line 55, used to unload the tank 2 at the terminal, is connected to the pipe 21 by a filling line 40 provided with a filling control valve 410 and an unloading control valve 540. The valves 41 and 540 are equipped with non-return valves. back, respectively 410 and 541.
    The device described allows the fuel supply to be carried out from one or more vessels 2 of the vessel. In the second case, a pump 20, a reservoir 23 and a liquid ejector 12 are similarly placed in each of the tanks used.
    Figure 2 shows another embodiment of a feeder. In this figure, the same reference numbers have been used to designate elements that are identical or similar to corresponding elements of the embodiment of FIG. 1.
    In the embodiment of FIG. 2, the positions of the ejector 12 and the pump 20 are reversed with respect to FIG. 1: the pump 20 is upstream of the ejector 12. The pump 20 is still used to make circulating the liquid, but it is the flow rate discharged by the ejector 12 which serves to supply the power generation device via the supply line 28. The excess flow is returned to the tank 23 by the lines 250 and 21 and ensures a sufficient liquid level to avoid defusing the pump 20.
    Compared with the embodiment of FIG. 1, the flow rate that the pump must discharge is lower. Indeed, the pump must only provide a sufficient flow to the operation of the ejector, whereas in the embodiment of FIG. 1 it must additionally provide a flow rate for the supply line 28.
    In this embodiment, the sensor 34 also makes it possible to regulate the pressure upstream of the vaporizer 31, by acting in this case on the valve 25. The conduits 250 and 21 act as return ducts, and it is not necessary. to provide a specific conduct as the conduct 32 of the embodiments of Figures 1 and 3.
    In a variant not shown, a phase separator is arranged downstream of the ejector 12.
    Figure 3 partially shows another embodiment of a feeder. In this figure, the same reference numbers have been used to designate elements that are identical or similar to corresponding elements of the embodiment of FIG. 1.
    In the embodiment of FIG. 3, the ejector 12 is arranged in the tank 23. Its suction tube 14 is at the base of the tank 23 and opens into the tank 2. Its outlet 13 discharges the freely pumped liquid in the reservoir 23. In this embodiment, the reservoir 23 and the ejector 12 can be combined to form a single element to be installed in the vessel 2.
    Although the invention has been described in connection with several particular embodiments, it is obvious that it is not limited thereto and that it comprises all the technical equivalents of the means described and their combinations if they are within the scope of the invention.
    权利要求:
    Claims (10)
    [1]
    1. Device for supplying fuel to an energy production installation on board a liquefied gas transport vessel from at least one tank (2) of liquefied gas of said vessel, comprising a pump (20) arranged in the bottom of the tank and a reservoir (23) arranged in the tank around the pump and intended to maintain suction of the pump in a submerged state, characterized in that it comprises a liquid ejector (12) arranged in the tank so as to be able to draw liquefied gas at the bottom of the tank, and a liquid circuit (21, 22, 24, 250) connecting on the one hand an outlet of the pump to an inlet of the ejector and on the other hand, an outlet from the ejector to the tank.
    [2]
    2. Feeding device according to claim 1, wherein the reservoir is located at a distance from the ejector.
    [3]
    3. Feeder according to claim 1, wherein the ejector is in contact with or located in the reservoir.
    [4]
    4. Feeding device according to one of the preceding claims, wherein the reservoir has a profile for filling by the liquid from the full tank or by a wave of liquefied gas.
    [5]
    5. Feeding device according to one of claims 1 to 4, wherein said tank has a volume less than 1 m3.
    [6]
    6. Feeding device according to one of claims 1 to 5, wherein said ejector comprises a suction tube (14), an inlet is located at a height less than the height of the suction of the pump.
    [7]
    7. Feeding device according to one of claims 1 to 6, comprising a supply line (28) connecting the liquid circuit to the power plant.
    [8]
    8. Feeding device according to claim 7, wherein the supply line (28) is connected to the liquid circuit between the outlet of the ejector and the tank.
    [9]
    9. Feeding device according to one of claims 1 to 8, comprising an unloading pump (54) or any other pump of the vessel via a pipe (55) connected to said liquid circuit upstream of the ejector.
    [10]
    10. Liquefied gas transport vessel comprising at least one tank of liquefied gas and an on-board power generation installation, characterized in that it comprises a feed device according to one of claims 1 to 9 connecting said tank. at said installation for supplying fuel to said installation from said tank.
    类似技术:
    公开号 | 公开日 | 专利标题
    BE1016803A3|2007-07-03|DEVICE FOR SUPPLYING FUEL TO AN ENERGY PRODUCTION PLANT IN A SHIP.
    EP1348620B1|2006-11-22|Arrangement for supplying gaseous fuel to a power plant in a LNG ship
    EP2984385B1|2017-05-10|Method and system for treating and feeding natural gas to an apparatus for generating power in order to propel a ship
    EP1596122A2|2005-11-16|System for delivering combustible gas for propulsing a ship transporting liquefied gas
    EP2349827A1|2011-08-03|Ship or floating support equipped with a device for attenuating the movements of the free surface inside a liquid-filled hull
    EP2992266B1|2021-06-02|Method and device for replenshing a supply of cryogenic liquid, notably of liquefied natural gas
    FR2852590A1|2004-09-24|ENERGY SUPPLY TO A GAS TERMINAL FROM A LIQUEFIED GAS VESSEL
    FR2879261A1|2006-06-16|Gaseous fuel supplying installation for liquid gas transportation ship, has pump supplying liquefied gas with pressure greater than supply pressure of energy production unit, to evaporator and valve controlling gas flow to feed manifold
    BE1019090A3|2012-03-06|DEVICE FOR SUPPLYING FUEL TO AN ENERGY PRODUCTION PLANT IN A SHIP.
    EP1314927B1|2005-12-28|Gas supply device for the propulsion unit of a gas tanker
    EP2984386B1|2017-03-01|Improved system for treating and supplying natural gas comprising a circuit for heating the tank
    EP2734436A1|2014-05-28|Ship provided with a fuel storage system, and corresponding method
    WO2017162977A1|2017-09-28|Facility for feeding fuel gas to a member consuming gas and for liquefying said fuel gas
    FR3066189A1|2018-11-16|DEVICE AND METHOD FOR FUEL SUPPLYING AN ENERGY GENERATION PLANT
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    WO2021032925A1|2021-02-25|System for treating gas contained within a tank for storing and/or transporting gas in the liquid state and the gaseous state, the system being fitted on a ship
    FR3103227A1|2021-05-21|Gas supply system for at least one gas consuming device fitted to a ship
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    同族专利:
    公开号 | 公开日
    GB0900124D0|2009-02-11|
    CN101503111A|2009-08-12|
    ES2383413B1|2013-05-16|
    IT1392747B1|2012-03-16|
    FI20095102A|2009-08-09|
    FR2927321A1|2009-08-14|
    FI20095102A0|2009-02-05|
    NO20090390L|2009-08-10|
    GB2457146B|2012-02-29|
    KR20090086359A|2009-08-12|
    US7950374B2|2011-05-31|
    HRP20090069A2|2010-08-31|
    FR2927321B1|2010-03-19|
    ES2383413A1|2012-06-21|
    RO125594A2|2010-07-30|
    US20090199909A1|2009-08-13|
    DE102009007878A1|2009-08-13|
    GB2457146A|2009-08-12|
    ITTO20090052A1|2009-08-09|
    KR101153660B1|2012-06-18|
    JP2009184661A|2009-08-20|
    DK200900056A|2009-08-09|
    TW200946400A|2009-11-16|
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    法律状态:
    2013-08-31| RE| Patent lapsed|Effective date: 20130228 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR0850794|2008-02-08|
    FR0850794A|FR2927321B1|2008-02-08|2008-02-08|DEVICE FOR SUPPLYING FUEL TO AN ENERGY PRODUCTION PLANT IN A SHIP.|
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