Power plants – Combustion products used as motive fluid – Process
Reexamination Certificate
2002-07-02
2003-12-23
Gartenberg, Ehud (Department: 3746)
Power plants
Combustion products used as motive fluid
Process
C060S039182, C060S806000
Reexamination Certificate
active
06666028
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an operation method for a combined plant. Specifically, the present invention relates to an operation method for a combined plant in which a gas turbine plant and a steam turbine plant are combined.
2. Description of the Related Art
In general, a combined plant for power generation has a structure in which a gas turbine plant and a steam turbine plant are combined. In a combined plant, a gas turbine plant operates in a high temperature area and a steam turbine plant operates in a low temperature area, and discharged heat energy from the high temperature area is thereby recovered in the low temperature area. Due to this structure, a combined plant can effectively use heat energy.
Recently, an improvement in heat efficiency of combined plants has been proposed. Heat efficiency of a combined plant can be improved by increasing the temperature at an inlet of a gas turbine which is provided with the gas turbine plant. However, when the temperature at an inlet of a gas turbine is increased, efficiency for cooling a high temperature portion of the gas turbine should also be increased.
In the past, the high temperature portion was cooled by blowing air thereinto; however, air cooling has poor cooling efficiency. Therefore, recently, cooling using steam which has a heat capacity larger than that of air has received much attention.
FIG. 6
shows a main part of a steam cooling system for a high temperature portion of a gas turbine. The steam cooling system shown in
FIG. 6
comprises a steam drum
1
, superheater
2
, a pressure regulating valve
3
for steam supplied into a gas turbine steam cooling portion (abbreviated as “steam pressure regulating valve
3
for GTSCP” below), a motor valve
4
, a temperature regulating valve
5
for steam supplied into a gas turbine steam cooling portion (abbreviated as “steam temperature regulating valve
5
for GTSCP” below), a gas turbine steam cooling portion
6
for steam cooling a portion to be cooled of the gas turbine (abbreviated as “gas turbine steam cooling portion
6
” below), a check valve
7
, a governor
8
, a steam turbine
9
, and a condenser
10
.
In addition, a bypass line
12
is provided, which connects an outlet pipe
11
from the gas turbine steam cooling portion
6
and the condenser
10
. To the bypass line
12
, a bypass valve
13
is provided.
Furthermore, a steam turbine bypass line
15
is provided in the steam cooling system, which is a bypass pipe connecting an inlet pipe
14
provided at an upstream side of the governor
8
, and the condenser
10
. Moreover, to the steam turbine bypass line
15
, a steam turbine valve
16
is provided.
Below, referring to
FIG. 6
, a conventional operation method for the combined plant will be briefly explained.
When the combined plant starts, steam generated in an auxiliary boiler and the like passes through an auxiliary steam system and the steam temperature regulating valve
5
for GTSCP, and is sent to the gas turbine steam cooling portion
6
. The gas turbine also starts.
At this step, the steam turbine
9
does not start, that is, it shuts down. Therefore, the governor
8
is still closed.
The steam, which is sent in the gas turbine steam cooling portion
6
, passes through the bypass line
12
and/or the steam turbine bypass line
15
, and it is then recovered in the condenser
10
.
As the gas turbine reaches a normal operation mode, a steam pressure from the steam drum
1
reaches a certain value. When the gas turbine is in a normal operation mode and the steam pressure of the steam drum
1
is a certain value, a steam line is changed from the auxiliary steam system into a main steam system.
At this point in time, the governor is still closed. Therefore, steam supplied from the steam drum
1
passes through the steam pressure regulating valve
3
for GTSCP, and the steam turbine bypass line
15
, and is then recovered in the condenser
10
. Otherwise, it passes through the motor valve
4
, the steam temperature regulating valve
5
for GTSCP, the gas turbine steam cooling portion
6
, the bypass line
12
and/or the steam turbine bypass line
15
, and it is then recovered in the condenser
10
.
When the warming-up operation of the steam turbine
9
is finished and the steam turbine
9
permits an introducing of steam, the combined plant is made be in a normal operation mode by gradually opening the governor
8
and gradually increasing the rotation speed of the steam turbine as well, and closing gradually the bypass valve
13
and the turbine bypass valve
16
. At a point in time, steam passing through the gas turbine steam cooling portion
6
is recovered in the steam turbine
9
.
In a normal operation mode, an amount of steam passing through the gas turbine steam cooling portion
6
is adjusted by opening and closing the bypass valve
13
. In other words, when the amount of steam passing though the gas turbine steam cooling portion
6
is small, the amount of steam is increased by opening the bypass valve
13
. In contrast, when the amount is too large, it is decreased by closing the bypass valve
13
. Moreover, in a normal operation mode, the turbine bypass valve
16
never opens. In order to introduce the steam into the condenser
10
, the turbine bypass valve
16
opens only in cases in which the combined plant is in a starting-up mode, a shut-down mode, a steam turbine emergency stop mode in which the steam turbine is stopped in an emergency by an abnormal vibration, decrease in oil pressure, and the like, and an uncontrolled operation mode in which the governor
8
is broken and the amount of steam cannot be controlled, other than a normal operation mode.
In a normal operation mode, in order to adjust the amount of steam flowing through the gas turbine steam cooling portion
6
comprising the combined plant, it is necessary to provide special bypass line
12
and the bypass valve
13
in the combined plant. Thereby, a problem arises in that a steam line is complicated and the cost for manufacturing combined plants is increades as well.
SUMMARY OF THE INVENTION
In consideration of the above described problem with conventional technology, an object of the present invention is to provide an operation method for a combined plant which can simplify the steam lines and decrease the cost for manufacturing the combined plants as well.
In order to achieve the object, the present invention provides an operation method for a combined plant comprising a gas turbine plant and a steam turbine plant; the steam turbine plant comprising a steam drum for generating steam and supplying the steam into a steam turbine, a condenser for condensing steam passing through the steam turbine, a steam turbine bypass line for connecting the upstream of the steam turbine and the condenser and bypassing the steam turbine; and a gas turbine steam cooling portion for cooling a hot portion of the gas turbine plant by steam supplied from the steam drum, and which is provided parallel to a pipe connecting the upstream of the steam turbine bypass line and the steam drum, wherein when the combined plant is in a normal operation mode, an amount of steam passing through the gas turbine steam cooling portion is adjusted by a valve which is provided in the steam turbine bypass line.
According to the operation method for a combined plant, during a normal operation mode of the combined plant, an amount of steam passing through the gas turbine steam cooling portion is adjusted by the valve which is provided in the steam turbine bypass line. That is, an amount of steam passing through the gas turbine steam cooling portion is adjusted by the valve which is provided in the steam turbine bypass line in every case in which the combined plant is in a starting-up mode, a normal operation mode, a shut-down mode, a steam turbine emergency stop mode, and an uncontrolled operation mode.
REFERENCES:
patent: 6128895 (2000-10-01), Takahama et al.
patent: 6389797 (2002-05-01), Sugishita et al.
patent: 6405537 (2002-06-01), Wada et al.
patent:
Hyakutake Yoshinori
Taguchi Jyun
Takahama Masayuki
Gartenberg Ehud
Mitsubishi Heavy Industries Ltd.
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