Technical field

The invention relates to filling a fuel tank with liquefied gas according to a preamble of claim 1 .

The invention relates also to a liquefied gas fuel system.

Background art

Gas is becoming more and more attractive fuel for ships' and other marine vessels' prime movers and auxiliary engines. Particularly but not exclusively natural gas (NG) is feasible due to its availability. Natural gas is a gaseous mixture in the ambient circumstances consisting primarily of methane and small amounts of ethane, propane, butane and nitrogen. It has high hydrogen content relative to coal, so when combusted it provides inter alia low amount of emissions, very clean burning process and it is basically free of contaminants. Particularly in cruise vessels, ferries and so called ropax vessels, where passengers are on board, the absence of soot emissions and visible smoke in the exhaust gases of ship's engines is very important feature facilitated by using NG as fuel for the engines but also for vessels carrying goods and bulk materials. Usually natural gas is stored as liquefied natural gas (LNG) at temperature of about -162°C, thus the storage cause problems particularly when the LNG is stored at high pressure, about at 5 bar, which is typically the level that a gas operated piston engine requires.

When bunkering i.e. filling a fuel bunker of a LNG fuelled vessel the pressure inside the vessel's LNG tank is usually needs to be lowered to facilitate the flow of liquefied gas from a storage tank to the vessel's LNG tank in order to have a minimal / low enough counter pressure in the vessel's tank compared to the pressure in the storage tank i.e. LNG bunker tank. The lowering of the pressure may be accomplished by spraying cold LNG from the top of the tank which cools down the gas in the gaseous phase decreasing the pressure. However, after bunkering the pressure must be again rebuilt in order to have a sufficient gas pressure for feeding the gas to the engines of the vessel at appropriate pressure. In the prior art systems the pressure is rebuilt by heating up the LNG and returning the gas at the top of the tank by means of a so called pressure build up circuit.

If the engines of the vessel are not running or are only idling there is only a limited heat available after bunkering. This means that the pressure build up takes a long time.

In WO201 1053164A1 there is shown an LNG fuel tank system for at least one gas engine used for ship propulsion, comprising at least one LNG fuel tank and a gas vessel, the LNG fuel tank to be bunkered from an onshore LNG pressure tank filling facility by means of a LNG filling line, wherein the LNG fuel tank is a ship low pressure controlled atmospheric pressure LNG tank, and the gas vessel is a single shell non-insulated pressure vessel arranged to accumulate flashed and boil-off gas dur- ing LNG bunkering and pressure relieving the LNG fuel tank, respectively. The gas engines are fuelled from either the gas vessel or the LNG fuel tank, dependent on a predefined gas vessel pressure. Thus, the publication suggests accumulating flashed and boil-off gas during LNG bunkering while maintaining the pressure in the LNG fuel tank low by means of a compressor connected between the LNG fuel tank and the gas vessel. Fuelling the gas engine of the vessel is taken place so that gas from the gas vessel is used until the pressure approaches about 5-6 bar gauge, where after the fuelling is effected from the LNG fuel tank.

Although the fuel system shown in WO201 1053164A1 may be advantageous as such, there has recently come out demands to provide other solutions to bunkering LNG fuel tank in a marine vessel particularly in a situation where the LNG tank(s) of the vessel is/are pressure vessel(s).

It is an object of the invention to provide method of filling a fuel tank with liquefied gas, and a liquefied gas system, which provides more simple operation and immediate utilization of the gas as fuel for a gas operated piston engine in a marine vessel. Disclosure of the invention

Object of the invention are met substantially as is disclosed in independent claims. The other claims present more details of different embodiments of the invention.

According to the invention a fuel tank is filled by a filling procedure with a liquefied gas so that liquefied gas is brought into the tank so that gas in introduced to a lower section of the tank below the surface of the liquefied gas in the tank, and during a first phase of the filling procedure while gas in introduced to a lower section of the tank the pressure of the tank is maintained below a predetermined set pressure by spraying of liquefied gas into a gas space in the upper section of the tank above the surface of the liquefied gas in the tank. In the method at a predetermined state of the filling procedure a second phase of the procedure is initiated during which the spraying liquefied gas into a gas space in the upper section of the tank is decreased and the second phase is practised until a predetermined filling stage of the tank is reached. According to an embodiment of the invention at the end of the second phase the gas pressure is at a level required by a gas utilizing engine connected to the tank.

According to an embodiment of the invention after a predetermined stage of the filling procedure the controlling of the spraying of liquefied gas into a gas space in the upper section of the tank is practised so that a second predetermined set pressure for the control is set which corresponds the required gas feed pressure of the engines in the vessel.

According to an embodiment of the invention a portion of the gas brought into the tank during the first phase of the filling procedure is sprayed into a gas space in the upper section of the tank above the surface of the liquefied gas in the tank. According to an embodiment of the invention during the first phase the portion of the gas sprayed into a gas space in the upper section of the tank is set to be a constant portion of the gas introduced into the tank.

According to an embodiment of the invention during the first phase the rate of spraying of liquefied gas into a gas space in the upper section of the tank is controlled so that the actual gas pressure in the tank has decreasing tendency until the predetermined state of the filling procedure. According to an embodiment of the invention during the filling process liquefied gas sprayed into a gas space in the upper section of the tank above the surface of the liquefied gas in the tank is recirculated from the lower section of the tank.

According to an embodiment of the invention the rate of spraying of liquefied gas into a gas space in the upper section of the tank above is controlled based on the difference between the actual gas pressure in the tank and the predetermined set pressure.

According to an embodiment of the invention during the second phase the rate of the spraying liquefied gas into a gas space in the upper section of the tank is totally stopped.

According to an embodiment of the invention in the method the predetermined state is defined so that the duration of the second phase is minimized.

Low counter pressure in the tank allows more rapid bunkering and tank's operating pressure is maintained immediately after bunkering with minimum need of pressure build up system.

According to a further embodiment of the invention liquefied gas fuel system for a gas operated engine, comprises a fuel tank which is in connection with at least one gas operated engine, a fuel line comprising an inlet connector into which an external source of liquefied gas may be temporarily connected, the feed line has at least two branches, the first one of which extends to the tank and has its outlet at vicinity of the bottom of the tank and the second branch extends to the tank having its outlet comprising a plurality of spray nozzles, and a control unit, wherein the control unit is arranged to exercise a method according to anyone of the claims 1 -1 1 .

Brief Description of Drawings

In the following the invention will be described with the reference to the accompanying schematic drawings, in which

Figure 1 illustrates an embodiment of the fuel feeding system according to the invention and Figure 2 illustrates a graph of pressure during the filling procedure according to the invention.

Best mode for carrying out the invention

Figure 1 describes an embodiment of the fuel system 10 according to the invention. The fuel system comprises a fuel tank 12 which is in connection with at least one gas operated engine 14 of the vessel 16, so that the engine may be operated making use of the gas stored in the fuel tank. The gas, particularly liquefied natural gas, is stored in the tank 12 at considerably low temperature, typically at temperature of about -162°C which is described as cryogenic conditions. Typically the gas fills the tank so that a part of the gas is as liquefied gas at the bottom of the tank 12.1 and part as gaseous gas at the upper part 12.2 i.e. gas space of the tank above the liquid portion of the gas. The tank 12 comprises insulation (not shown) to prevent ex- cessive warming up of the LNG in the tank arrangement.

In this exemplary embodiment the tank is connected via a fuel conduit 18 with the engine 14. The fuel conduit is provided with an evaporator 20 by means of which liquefied gas may be evaporated prior to feeding to the engine according to the de- mand. This evaporator is called a main evaporator because during the operation of the engine the gas combusted in the engine is evaporated continuously from the liquefied gas in the tank 12. The tank 12 is also provided with a pressure build up system 22 by means of which the pressure in the tank 12 may be maintained at a level which makes it possible to deliver fuel to the engine at required feed pressure even without mechanical pumping. The pressure build up system 22 comprises a conduit 22.1 leading from the bottom section of the tank to the upper section of the tank 12 and an evaporator 22.2 arranged to the conduit. During the operation of the pressure build up system the liquefied gas is turning into gaseous form in the evaporator and is led to the upper part of the tank. The evaporation process increases the pressure in the tank. Pressure is detected by a sensor 56 which is in connection with a control unit 54. There is a valve 50 arranged to the conduit 22.1 by means of which the flow rate of the gas in the conduit may be controlled. The operation of the valve is controlled by the control unit 54 arranged to control the fuel system 10. Since the engine consumes the gas the tank it must be filled occasionally with liquefied gas. In order to fill the tank, which is called also as bunkering, the tank 12 is provided with a filling system 24. The filling system comprises a feed line 26 with an inlet connector 28 into which an external source 30 of liquefied gas may be tempo- rarily connected for bunkering. The feed line has at least two branches, the first one of which extends to the tank 12 and has its outlet 34 at vicinity of the bottom of the tank. Thus first branch 32 of the feed line opens below the surface of the liquefied gas in the tank 12. The second branch 36 extends to the tank 12 as well, but is has its outlet 38 at the vicinity of the top of the tank opening into the space of gaseous gas. The outlet 38 comprises a plurality of spray nozzles 40 which makes the liquid gas atomizing into small when it is introduced into the tank through the nozzles.

When the tank is filled the external source 30 of liquefied gas is connected to the connector 28 any preparatory actions are performed. The pressure in the tank 12 is lowered to a level being lower than the pressure in the source 30 so that liquefied gas may flow into the tank 12. The pressure in the external source may be measured by a sensor 58. During the filling of the tank the delivery of fuel from the tank 12 to the engine 14 is stopped and the engine may be stopped or operated making use of other possible fuel sources.

Now, fuel in liquid state is introduced to the lower section 21.1 of the tank through the first branch 32, below the surface of the liquefied gas in the tank. This causes the surface of the liquid gas rise and the gas pressure in the upper section of the tank 12.2 tends to increase accordingly. Thus during the first phase of the filling pro- cedure, while liquefied gas is introduced to the lower section 12.1 of the tank, the pressure in the tank is maintained below a predetermined set pressure by spraying of liquefied gas into a gas space 12.2 in the upper section of the tank above the surface of the liquefied gas in the tank by means of the second branch 36 of the fuel feed line 26. Spraying of the liquid gas results in quick evaporation of the gas and requiring heat, the evaporation lowers the temperature, and thus also pressure of the gas accordingly. The spraying operation is controlled by a control unit 54 arranged to control the fuel system 10.

According to the invention at a predetermined state of the filling procedure a second phase of the procedure is initiated during which the spraying liquefied gas into a gas space 12.2 in the upper section of the tank is decreased or stopped. This has an effect of causing the pressure increase in the tank.

The second phase of the filling procedure terminates to a predetermined filling state of the tank, such as being filled full. Advantageously, the second phase ends to the end of the whole filling procedure. Also, at the end of the second phase the gas pressure is at a level required by a gas utilizing engine connected to the tank.

The predetermined state of the filling procedure may be a predetermined filling level of the tank, a predetermined elapsed time of the filling or even an estimation of remaining time or remaining fuel amount to filling the tank full.

According to an embodiment of the invention after the predetermined stage of the filling procedure spraying of liquefied gas into a gas space 12.2 in the upper section of the tank is practised so that a second predetermined set pressure is set which corresponds to required gas feed pressure of the engines 14 in the vessel and the spraying rate of the gas is controlled by a control unit. The spraying into the gas space 12.2 comprises a desired portion of the total fuel flow into the tank. Advantageously the spraying is controlled by on/off manner operating a valve in the second branch 36. It is also possible to introduce all fuel through the nozzles 40

During the first phase of the filling procedure the pressure in the tank is controlled so that a portion of the gas brought into the tank is sprayed into a gas space in the upper section of the tank above the surface of the liquefied gas in the tank so that the pressure in the tank is maintained below the predetermined set pressure.

Even if not shown in the figure it is conceivable in certain cases the liquefied gas sprayed into a gas space in the upper section of the tank above the surface of the liquefied gas in the tank is recirculated from the lower section of the tank.

According to an embodiment the portion of the gas sprayed into a gas space in the upper section of the tank is set to be a constant portion of the gas introduced into the tank of the valve in the second branch 36 is set to constant position during the second phase of the filling procedure. This way the control is simple and setting the po- sition suitable provides a high enough flow rate of the sprayed liquefied gas to main- tain or even decreasing the pressure while introducing liquefied gas to the lower section 12.1 of the tank 12.

When practising active control of the filling the rate of spraying of liquefied gas into a gas space in the upper section of the tank above is controlled so that the actual gas pressure in the tank has decreasing tendency until the predetermined state of the filling procedure.

According to an embodiment of the invention the rate of spraying of liquefied gas into a gas space in the upper section of the tank above is controlled based on the difference between the actual gas pressure in the tank and the predetermined set pressure.

In figure 2 there is illustrated as a graph of pressure (vertical axis) in the tank as function of time or filling state of the tank (horizontal axis). During the first phase A of the filling procedure the pressure in the tank has decreasing tendency while the filling proceeds. Beginning at a predetermined state of the filling procedure C, the pressure is caused to rise considerably rapidly by decreasing or stopping the spraying liquefied gas into a gas space in the upper section of the tank. After the prede- termined state C the second phase of the filling procedure B is practised during which the pressure is increased considerably until a predetermined filling stage of the tank is reached.

It is to be noted that only a few most advantageous embodiments of the invention have been described in the above. Thus, it is clear that the invention is not limited to the above-described embodiments, but may be applied in many ways within the scope of the appended claims. The features disclosed in connection with various embodiments can also be used in connection with other embodiments within the inventive scope and/or different assemblies can be combined from the disclosed features, should it be desired and should it be technically feasible.