DE4102204A1 - METHOD FOR EVAPORATING LIQUID NATURAL GAS - Google Patents

Description

The invention relates to a method for evaporating liquid, pressurized natural gas, the natural gas due to the heat contained in the exhaust gas of a gas turbine is heated by the exhaust gas with the help of one in one Circulated fluid is transferred to the natural gas.

With the evaporation of liquid, under pressure Natural gas with energy generation has so far been used for heating of the natural gas to the delivery temperature and for heating in separate fluids highest process temperature sea water or immersion flame ver steamer used as heating medium.

Submersible flame evaporators, however, require more than 1% of the enforced natural gas as fuel.

The process for open circulation of sea water has however considerable disadvantages. The main ones are the high investment costs for the circulation device  the disturbance of the thermal balance in the Environment, as well as the insufficient amount of heat in the Winter, the use of additional heat sources makes necessary.

Furthermore, when using sea water as a heater medium of great disadvantage that only as a heat exchanger costly and corrosion-prone trickle film steamer can be used.

From German published patent application 26 42 667 is one Device for re-evaporation of liquefied gas is known. The device is through two thermodynamic circuits featured, one of which comes from a gas turbine closed circuit exists, the waste heat to Evaporation of the liquefied gas is used, and the other a conventional open-circuit gas turbine represents, the waste heat in turn for the operation of Gas turbine is used in a closed circuit. As Find tools for the closed cycle Nitrogen, hydrogen, but also other noble gases or inert gases use.

However, this facility can in terms of Profitability in terms of energy generation and Investment and operating costs are not optimal to be viewed as. The reasons for this are as follows: The working equipment of the closed cycle is concerned the known system is a gas. Therefore, for Maintaining the gas cycle at a desired one Pressure requires at least one compressor. As from the The special description of the process can be seen  Temperature differences of the gas within the circuit considerable, since they are between -134 ° C and 325 ° C in Trap of nitrogen as a working tool. This requires a very large amount of machine and equipment.

The present invention is therefore the object based on a method of the type mentioned above to train that improved economy is possible.

This object is achieved in that as Fluid water is used.

The liquid, pressurized natural gas according to the invention in the heat exchange against that in the circuit led water heated to delivery temperature and as deducted gaseous product. The circulated water cooled after heat exchange is in one further heat exchange against the exhaust gases of a gas turbine warmed up.

The shaft power of this gas turbine is over one Generator converted into electrical energy (so-called "Cogeneration gas turbine"). A small part, about 3%, of the vaporized natural gas is from the product line branched off and used as fuel gas for the gas turbine.

The method according to the invention then has large ones energetic and procedural advantages when it comes to a system is used where too low Temperature river or sea water as a heat source is not can be used. In this case, offer yourself Gas turbines as the best economical solution because in In contrast to submersible flame evaporators, in addition to heat, they are also large Amounts of electrical energy are generated.  

While the method according to the invention in the simplest Litigation without using cold Expansion turbines of the liquid, pressurized Natural gas is driven, however, each is technical more complex process management conceivable and possible. These would be z. B. by inserting one or more additional fluid circuits to recover the in liquid natural gas stored energy realized. In in this case, all additional fluid circuits would as well the liquid natural gas through the circulating fluid warmed up. By means of those installed in the fluid circuits Expansion turbines can now be additional electrical Gain energy.

In further refinements of the invention Process can also use steam and a mixture of Water and additional components that freeze solution below 0 ° C, use.

Another embodiment of the method according to the invention stipulates that the water is evaporated, after which the generated steam is released to generate electricity, the expanded steam is also used to heat the bottom Natural gas under pressure can be used.

By means of this embodiment of the method according to the invention rens, the energy released increases again, and the The economy of the entire system is further improved.

Because of the use of sea water as a cooling medium for the liquefied natural gas and the additional fluid Circuits can be avoided with this procedure conventional and cheaper straight tube or tube bundle heat exchanger instead of the costly and prone to corrosion current film evaporators are used.

The invention will now be shown schematically on the basis of two illustrated embodiments explained in more detail. It shows

Fig. 1 shows an inventive method with water cycle

Fig. 2 shows a method according to the invention as in Fig. 1 with water / steam cycle for the generation of electrical energy by means of expansion turbines

Fig. 1 is the basic representation of the inventive method. A gas turbine GT are fed via line 1 a high pressure fuel gas and via line 1 b air. The hot exhaust gases leave the gas turbine GT via line 1 and are cooled in the heat exchanger El in countercurrent to the water being heated. You then leave the facility. The water heated in the heat exchanger El in countercurrent to the cooling exhaust gases of the gas turbine GT is conducted via line 2 a to a second heat exchanger E 2 . This is done in countercurrent to the liquid, pressurized natural gas in conduit 3 a cooling of the water. By means of pump P 1 , the cooled water is conveyed from line 2 b and heat exchanger El is fed again via line 2 c. This closes this water cycle. The mixture was heated to the dispensing temperature and vaporized gas is fed via line 3 b withdrawn from the system.

Fig. 2 shows an embodiment of the inventive method of Fig. 1, in which the circulated water is not only heated but also evaporated and expanded via expansion turbines to generate additional electrical energy. The exhaust gas leaving the gas turbine via line 1 flows through the two heat exchangers E 3 and E 1 in succession, is cooled in countercurrent to water that is being heated or evaporated, and then leaves the system. The water coming from the pump P 1 flowing in line 2 c is heated in the heat exchanger E 1 in countercurrent to the cooling exhaust gas of the gas turbine GT and then evaporated in the heat exchanger E 3 . The resulting water vapor passes via line 2 a into an expansion turbine K 1 , in which it is expanded to perform work. The water / steam mixture then flows through line 2 d in succession through the two heat exchangers E 4 and E 2 , in which it cools and condenses in countercurrent to natural gas which is heated and evaporated. The water is supplied via line 2 b again, the pump P. 1 This water / steam cycle is closed. The liquid, pressurized natural gas brought about via line 3 a is evaporated in countercurrent to the cooling and condensing water / steam mixture and heated to the delivery temperature. Reconciliation 3b it leaves the plant.

Claims (4)

1. A method for vaporizing liquid, pressurized natural gas, the natural gas being heated by the heat contained in the exhaust gas of a gas turbine, which is transferred from the exhaust gas to the natural gas by means of a circulating fluid, characterized in that as Fluid water is used. 2. The method according to claim 1, characterized in that water vapor is used as the fluid. 3. The method according to claim 1, characterized in that as a fluid a mixture of water and additional Components that freeze the solution below 0 ° C press is used. 4. The method according to claim 1, characterized in that the water is evaporated, after which the resulting Steam is released to generate electricity, whereby the relaxed steam also for heating the under pressure standing natural gas can be used.