DE602005001546T2 - Arrangement for conveying gaseous fuel to a power generation unit of a ship for the transport of liquefied gas - Google Patents

Description

The The invention relates to a device for supplying gaseous fuel to an arrangement for generating energy of a transport ship for LPG, the gaseous Fuel at a certain supply pressure by one or several devices is compressed before the arrangement for Energy generation across at least one supply collector provided.

The The invention relates to the control and the control unit for the supply with compressed gas of the energy generator with gas supply of a transport ship for LPG, For example, this arrangement may include one or more diesel groups or one or more gas turbines. The operating characteristics of a power generator with gas supply generally include that supply with gas under a relatively weak Supply pressure is to be realized, for example, by of the order of magnitude can be from four bar. In the stationary state, this supply generally in the right conditions by existing compaction devices which is capable of providing the desired supply flow and pressure to deliver. These devices, for example, a compressor and / or include a pump, which supplies an evaporator, are generally by Druckstelleinheiten controlled, in particular in height the supply manifold are arranged to close a pressure in the supply collector to keep at the target supply pressure.

If a change the applied load on the power generator, produces the an increase or decrease in gas consumption, which in general causes a fall or an increase in the supply pressure in the collector. Actually, under consideration of the limited Volume of the collector, the gaps between the devices of the supply collector and the reaction time the devices that compress the gas, the control unit the pressure exerted by the compression devices on the Pressure unit is issued, a non-negligible Hysteresis. Consequently, a certain time interval occurs, after a change the load of the energy generator the stable supply pressure in the Restore collector.

A such change the load of the power generation arrangement may due to a Requirement to accelerate or slow down the speed of the ship, putting into service or suspending a major consumer such as Pumps for Freight or other occurrences. While This interval is the operation of the energy generator and the Performance that they give up, disturbed, so that this transition the unwanted exposure cause the energy generator by pressure deficiency of the combustion gas or the compression devices by disregarding the load minima or maxima of the acceptable pressure.

In the known devices of the type, such as those published in the French patent application FR 2 837 783 or also in the application FR0450945 described, an evaporator is supplied by a pump, which is embedded in the bottom of the tank. The flow rate of the evaporator is adjusted by an upstream valve according to the pressure in the tank and / or according to the pressure in the supply header. These devices are subject to the problem of the reaction time of the evaporator following a change in the pressure in the supply header. This reaction time is due, inter alia, to filling the evaporator and to phase transformations. This inertia, which can not be lessened, results in a change in the pressure in the supply collector in the event of a change in the load of the energy generating device, and thus the previously presented risks.

This Problem was not presented until this day and was not The subject of a previous study.

The The aim of the invention is thus the inertia of the forced evaporation to fix.

To For this purpose, the invention has a device for supplying gaseous fuel to an arrangement for power generation of a transport ship for liquefied gas as target, starting with the contents of at least one tank of the ship, comprising at least one compressor whose inlet gas in the vapor phase in the tank sucks, the outlet of the compressor leads into a supply collector of the arrangement for power generation, also a Pump comprising, which is embedded in the bottom of the tank and with the inlet of an evaporator is connected, wherein the outlet of the evaporator with the supply collector of the power generation arrangement via a Supply line is connected, characterized in that the pump is suitable to the evaporator with LPG at a higher pressure as supplying the supply pressure of the arrangement, and thereby that the Supply line with adjusting means for the flow of the gas, which is delivered to the supply collector is equipped.

These actuators are designed to gradually discharge the gas into the manifold with a supply pressure to thereby adjust and stabilize the pressure in the event of a change tion of the load of the arrangement for power generation, which tends to cause a temporary fluctuation of the supply pressure.

On in this way are the supply conditions of the power generation arrangement optimally inclusive while the transition phases change the load.

advantageously, are the adjusting means of the flow of the gas, which is the supply collector supplied is used to measuring instruments for the pressure connected to the collector.

According to one advantageous embodiment a buffer tank the adjusting means for upstream of the flow. In this way it is possible to constantly one Gas reserve with a pressure above the supply pressure of the arrangement to produce energy to any change in pressure in the collector to fix. This solution with buffer tank allows to increase the gas reserve volume with overpressure, if the volume of the line does not allow a sufficient security volume because of their length and / or their diameter.

According to one another advantageous embodiment is a cooling device over the Pipe at the outlet of the Evaporator located and adjusting means for the gas pressure at the outlet of the evaporator are upstream of the evaporator. The cooling device allows so to reduce the temperature of the gas at the outlet of the evaporator and the pressure regulating means allow a lower one at the outlet of the evaporator Pressure than the pressure at the outlet of Provide pump to secure the operation of the cooling device, everything while the adjusting means for upstream of the flow a higher one Gas pressure is provided as the pressure in the supply collector.

advantageously, are the adjusting means for pressure on measuring instruments for printing the cooling device connected downstream.

The cooler can also an evaporation device for LPG include, which comes from at least one tank, and by the measured temperature in the line at the outlet of the cooling device is activated.

According to one advantageous embodiment the adjusting means for the flow for gas that the Supply collector supplied will, alike to the measuring instruments connected to gaseous flows, which are generated by the compressor and the evaporator and by the arrangement for power generation and by a gas oxidation device consumed, which is sometimes called burners or in English "Oxydizer". These execution allowed by dividing the gas flow between generation and the consumption is calculated, the pressure at the outlet of the evaporator adjust and thus the stability and the reactivity of To increase facility.

The The invention will now be described in more detail and with reference to the appended drawings described the embodiments of it as non-limiting Represent examples.

The 1 is a schematic representation of a first embodiment of the invention;

The 2 is a schematic representation of a second embodiment of the invention.

With reference to the 1 and 2 For example, the elements dedicated to power generation on a gas tanker are shown schematically and include an arrangement here 1 for generating electrical and / or thermal energy. This arrangement 1 For example, it may include diesel engines that power alternators for electrical power generation for the ship's electrical equipment and propulsion, but could alternatively include a conventional arrangement that includes a boiler for generating steam that powers a steam turbine for driving the screw.

As usually taken on gas tankers, the arrangement is for power generation 1 supplied by gas, in one or more tanks 2 of the gas tanker is taken. The supply gas is in most cases methane, which is taken directly from the tanks by placing it under a supply pressure of a few bar.

This supply gas is taken in parallel in two ways. On the one hand, gas is in the vapor phase 4 in the tank 2 over the surface of the liquid methane 5 taken to be compressed in a compressor which is driven by an unillustrated electric motor. This gas is then added to a supply collector 7 at the pressure injected to supply the assembly 1 is desired for energy production. On the other hand, a pump takes 8th in the bottom of the tank 2 is taken in and is electrically powered, liquid methane 3 that in an evaporator 9 is directed. In the outlet of the evaporator 9 is the methane in gaseous form to equally the supply collector 7 the arrangement 1 for generating energy by the connection via a supply line 10 to supply.

A drain line for overpressure is at the supply manifold 7 connected, downstream to the connection of the line 10 to this supply collector, and flows into a gas oxidation device 11 , Such overpressure may be due, for example, to a sudden drop in the load on the assembly 1 occur, which leads to a sudden decrease in gas consumption.

According to the in 1 illustrated embodiment is a control valve 12 for gas flow at the outlet of the line 10 and the supply collector 7 the arrangement 1 arranged upstream, in order to eliminate a change in the supply pressure in this supply collector. This valve 12 can in particular by a pressure adjusting unit 13 be set, which is connected to the supply collector, and more generally controlled by a passer.

The pump 8th supplies the evaporator 9 with LPG, at a higher pressure than the supply pressure of the power generation arrangement 1 , Therefore, the gas in the vapor phase to the outlet of the evaporator 9 delivered at a pressure higher than the supply pressure in the supply manifold 7 prevails, and what in the line 10 generates a gas reserve at high pressure, this supply collector according to the needs of the arrangement 1 via the control valve 12 can provide. Actually, when the load of the arrangement 1 changed, fits the valve 12 that the line 10 with the supply collector 7 connects, its opening, to the collector a part of the reserve gas in the pipe 10 at the supply pressure required at the level of the collector. This allows, for example, a drop in the supply pressure in the collector due to an increase in the load of the assembly 1 to keep the supply pressure at its set point.

According to the in 2 illustrated embodiment is a buffer tank 14 who is on line 10 the control valve 12 is arranged upstream, at the pressure of the outlet of the evaporator 9 inflated, a pressure which is higher than the supply pressure of the arrangement 1 , In this way, a safety volume is ensured with sufficient gas at overpressure compared to the supply pressure when the volume flowing through the pipe 10 between the outlet of the evaporator 9 and the inlet of the valve 12 is not sufficient to fill this function because of its length and / or its diameter. So you get with this gas volume with overpressure, that with the control valve 12 sufficiently fast reactivity to substantially reduce or increase the pressure in the supply manifold 7 to avoid causing damage to the compressor or undesirable suspension of the assembly 1 could cause energy production.

In 2 is equally a cooling device 15 shown, which contains an injection device for liquefied gas, which from the at least one tank 2 comes. This device allows the gas at the outlet of the evaporator 9 to be cooled to be in a temperature and pressure range, the responsiveness of the valve 12 sufficient to keep the supply pressure in the collector at its setpoint. This is the cooling device 15 by a temperature measurement at the outlet of the evaporator 9 operated, the conventional measuring instruments are not shown in the figures. To ensure good operation of this cooling device 15 to allow is another control valve 16 at the inlet of the evaporator 9 arranged to the pressure at the outlet of the evaporator 9 from the measurement of this pressure by means 17 adjust. This allows to ensure that this pressure is the pressure at the outlet of the pump 8th falls below the cooling device 15 feeds to produce a fluid removal. This valve 16 has equally as a control setpoint a pressure above the supply pressure of the supply collector 7 , so the valve 12 can fulfill its function.

According to a last variant of the invention, which is not shown in the figures, the valve 16 equally by measuring instruments for flows of gas through the assembly 1 for power supply and through the gas oxidation device 11 is consumed, and by measuring flow through the compressor 6 and the evaporator 9 be generated to measure the deviation between the gas flows in the production or consumption and the valve 16 adjust accordingly. This variant allows additional pressure stability at the outlet of the evaporator 9 by providing a better responsiveness.

Claims (7)

Device for supplying gaseous fuel to an arrangement ( 1 ) for the generation of energy of a transport ship for liquefied gas, beginning with the contents of at least one tank ( 2 ) of the ship, comprising at least one compressor ( 6 ) whose inlet gas in the gas phase in the tank ( 2 ), the outlet of the compressor ( 6 ) into a supply collector ( 7 ) of the arrangement ( 1 ) leads to energy production, also a pump ( 8th ) extending into the bottom of the tank ( 2 ) and with the inlet of an evaporator ( 9 ), the outlet of the evaporator ( 9 ) with the supply collector ( 7 ) of the arrangement ( 1 ) for power generation via a supply line ( 10 ), characterized in that the pump ( 8th ) is suitable to the evaporator ( 9 ) with liquefied gas at a higher pressure than the supply pressure of the arrangement ( 1 ), and in that the supply line ( 10 ) with adjusting means ( 12 ) for the flow of the gas supplied to the supply collector ( 7 ) is equipped. Device according to claim 1, characterized in that the adjusting means ( 12 ) for the flow of measuring instruments ( 13 ) for the pressure in the supply collector ( 7 ) are connected. Device according to claim 1 or 2, characterized in that a buffer container ( 14 ) the actuating means ( 12 ) is upstream of the flow. Device according to one of the preceding claims, characterized in that a cooling device ( 15 ) over the supply line ( 10 ) at the outlet of the evaporator ( 9 ) and that adjusting means ( 16 ) for the gas pressure at the outlet of the evaporator ( 9 ) the evaporator ( 9 ) are upstream. Device according to claim 4, characterized in that the adjusting means ( 16 ) for the pressure on measuring instruments ( 17 ) for the pressure in the supply line ( 10 ) of the cooling device ( 15 ) are connected downstream. Device according to claim 4 or 5, characterized in that the cooling device ( 15 ) comprises a liquefying gas vaporizing device comprising at least one tank ( 2 ), the evaporation device being determined by the measured temperature in the supply line ( 10 ) at the outlet of the cooler section ( 15 ) is activated. Device according to claim 5 or 6, characterized in that the adjusting means ( 16 ) for the pressure on measuring instruments for the gas flows passing through the compressor ( 6 ) and the evaporator ( 9 ), and flows through the device ( 1 ) and an oxidation device ( 11 ) are connected, are connected.