JP3746545B2 - Gas turbine nozzle purge method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fuel injection nozzle purge system for a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuel.
[0002]
[Prior art]
FIG. 2 is a diagram showing an example of a conventional fuel supply system of a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuels.
[0003]
Liquefied butane having a low boiling point is a filter (1), a receiver tank (2), a fuel pump (3), a pressure regulating valve (4), a pressure detector (5), a shutoff valve (6), and a flow control valve (7). Then, the gas flows into the mixer (9) through the check valve (8) sequentially. The pressure is regulated by the pressure regulating valve (4), and a cooler (11) is installed in the return system (10) in order to prevent flushing accompanying the temperature rise of the return fuel by the pump. On the other hand, since heavy oil fuel has a high boiling point, the above-described cooler and receiver tank are not required.
[0004]
The two types of fuel uniformly mixed in the mixer (9) are ejected from the fuel injection nozzle (14) in the combustor (13) through the shutoff valve (12). Here, in order to promote the atomization of the fuel, a spray air system (30) is provided, and sequentially passes through a filter (20), a spray air compressor (21), a shut-off valve (22), and a check valve (23). , Pressurized air for spraying is supplied to the fuel injection nozzle (14).
[0005]
If heavy oil remains in the nozzle after the gas turbine is stopped, the nozzle hole is clogged due to high temperature. Therefore, a combustor casing drain valve (15) is provided, and the heavy oil drain is guided to the fuel drain tank (17) through the check valve (16). This drain is collected by the fuel drain pump (18) via the check valve (19).
[0006]
[Problems to be solved by the invention]
The combustor cabin air temperature after the gas turbine is stopped is usually a high temperature of 400 ° C or higher. For this reason, the liquefied butane drains out of the dual nozzle together with heavy oil, and if the residual heavy oil is drained out of the system by performing the nozzle purge by the conventional method, the liquefied butane may explode.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned conventional problems, the present inventor is a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuels, and after the gas turbine is stopped, nitrogen gas is supplied to the fuel nozzle. In addition to the above requirements, a gas turbine nozzle purge method characterized by supplying pressurized air to the fuel nozzle after stopping the supply of the nitrogen gas; and further, fuel oil and liquefied butane as fuel In this dual fuel-fired gas turbine, a gas turbine nozzle purge method is proposed in which pressurized air is supplied to an atomizing air nozzle after the gas turbine is stopped.
[0008]
The present invention is configured as described above, and nitrogen gas is supplied to the fuel injection nozzle for a certain period of time after the gas turbine is stopped. Therefore, nozzle purge with nitrogen is performed to prevent the explosion of liquefied butane.
[0009]
In the present invention, the pressurized air is supplied to the fuel nozzle after the supply of the nitrogen gas is stopped, so that the nozzle is forcibly cooled to prevent the explosion of liquefied butane.
[0010]
In addition, in the present invention, since the pressurized air is supplied to the atomizing air nozzle for a predetermined time after the gas turbine is stopped, the cooling of the nozzle becomes more effective.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a system diagram showing an embodiment of the present invention. In this figure, parts similar to those of the conventional one described with reference to FIG. 2 are designated by the same reference numerals in order to avoid redundancy, and detailed description thereof is omitted.
[0012]
In the present embodiment, a nitrogen supply system (28) constituted by a nitrogen cylinder (24), a nitrogen gas cutoff valve (26) having a timer (25), and a check valve (27) is provided as a fuel supply system. The mixed fuel cutoff valve (12) communicates with the downstream side. The outlet of the nitrogen gas shut-off valve (26) and the inlet of the atomizing air shut-off valve (22) communicate with each other through a pipe (31), and the pipe (31) is provided with a valve (32). Yes. The spray air shut-off valve (22) is also provided with a timer (25).
[0013]
In such a system, the nitrogen gas shut-off valve (26) is opened for a certain time (several minutes) after the gas turbine is stopped, nitrogen is supplied to the fuel injection nozzle (14), nozzle purging with nitrogen gas and cooling are performed, and liquefied butane is obtained. Prevent explosions. Thereafter, the nitrogen gas shut-off valve (26) is closed and the valve (32) is opened, and pressurized air is supplied instead of expensive nitrogen gas, and then forced cooling is continued for several hours.
[0014]
On the other hand, the shut-off valve (22) is opened for a certain period of time (more than 10 hours) after the gas turbine is stopped, and the pressurized air for spraying is supplied to the fuel injection nozzle via the spray air system (30) to forcibly cool the nozzle. Further promote. The pressurized air is formed so as to be blown from around the fuel nozzle.
[0015]
【The invention's effect】
According to the present invention, heavy oil purging of a liquefied butane / heavy oil dual fuel injection nozzle can be performed without the liquefied butane exploding.
[Brief description of the drawings]
FIG. 1 is a system diagram showing an embodiment of the present invention.
FIG. 2 is a system diagram showing an example of a conventional fuel supply system of a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuels.
[Explanation of symbols]
(1) Filter (2) Receiver tank (3) Fuel pump (4) Pressure adjustment valve (5) Pressure detector (6) Shut-off valve (7) Flow control valve (8) Check valve (9) Mixer (10 ) Return system (11) Cooler (12) Mixed fuel cutoff valve (13) Combustor (14) Fuel injection nozzle (15) Combustor casing drain valve (16) Check valve (17) Fuel drain tank (18) Fuel drain pump (19) Check valve (20) Filter (21) Spray air compressor (22) Spray air shut-off valve (23) Check valve (24) Nitrogen cylinder (25) Timer (26) Nitrogen gas shut-off valve ( 27) Check valve (28) Nitrogen supply system (30) Atomizing air system (31) Switching line (32) Valve

Claims (3)

In a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuel, nitrogen gas is supplied to the fuel nozzle after the gas turbine is stopped. 2. The gas turbine nozzle purging method according to claim 1, wherein after the supply of the nitrogen gas is stopped, pressurized air is supplied to the fuel nozzle. In a dual fuel-fired gas turbine using heavy oil and liquefied butane as fuel, pressurized air is supplied to an atomizing air nozzle after the gas turbine is stopped.

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