DE4337674A1 - Ice-free maintenance of air-intake to gas-turbine generating plant - involves having all or part of water emerging from air cooler routed back to air intake heater - Google Patents

Abstract

To keep the fresh-air inlet ice-free in a gas turbine generating plant, the feed water warmed up in the air cooler (6) behind the compressor (4) is passed to a heat exchanger (5) in the air intake filter unit (11). In a further development, the warm feed water is instead tapped off from the return path from the air cooler by a thermostat-controlled three-way motorised valve. ADVANTAGE- Inexpensive de-icing measure for winter months.

Description

The invention relates to a method for keeping the ice free Fresh air intake filter of gas steam turbine plants.

Is in the cold season on the fresh air intake air is sucked in for the compressor, it happens depending on the respective outside temperature, to a more or less strong Icing of this filter. The consequence of this is that due to sufficient air supply to the compressor reduces overall performance system occurs.

In known versions of combined gas-steam turbine systems either icing is accepted or it is fil Terheizungen provided, which is heated with electrical energy become.

A disadvantage of fresh air intake filters without heating is that the system is subject to temperature-dependent fluctuations in performance is.

The heating of the filter with electrical energy, however, is so costly that its profitability is in question must be put.

The object of the invention is therefore to provide heating for the To design fresh air intake filters, which are based on cost-effective Prevents icing.

The object is achieved by the invention. This is ge indicates that the feed water heated in an air cooler via a radiator arranged in the fresh air intake filter is leading.

With the invention, icing of the fresh air intake filter using one available within the facility anyway standing form of energy; practically without operating costs, for sure held on. Through the supply of a constant amount of fresh air in the compressor is a con constant power output of the system guaranteed.  

In a development of the invention it is provided that he warmed feed water by means of a thermostatically controlled three-way Motor control valve is branched from the feed water circuit.

The advantage of this training is that the radiator of the fresh air intake filter only the one that is actually required Amount of energy is supplied. The energy saved can be saved widely used.

The invention will be explained in more detail using an exemplary embodiment. For this purpose, the principle of the gas turbine cycle of a combined gas-steam turbine system is shown in FIG. 1, and the development according to the invention is shown schematically in FIG. 2.

The gas turbine cycle according to FIG. 1 is that part of a combined gas-steam turbine plant for which the principle according to the invention was designed. Specifically, the fresh air suction filter 11 is protected against icing. A compressor 4 , an air cooler 6 and an expansion turbine 12 are arranged for the pre-compression (within the limits specified by the turbine manufacturer for safe operation). Furthermore, a gas turbine compressor 1 , a combustion chamber 2 and a gas turbine 3 are necessary for the actual gas turbine. A generator 9 and a motor / generator 10 complete this system part suitable for the application according to the invention.

The fresh air is supplied to the compressor 4 by means of a fresh air line 8 , which is guided via a fresh air suction filter 11 . Feed water, which flies through the feed water lines 7 a and 7 b to and from the air cooler 6 , serves as the cooling medium. Before it is returned, the feed water heated in the air cooler 6 is passed through a radiator 5 arranged in the fresh air intake filter 11 . Through the radiator 5 , the heat from the energy source, so in the present case from the heated food water, is transferred to the filter. This prevents icing.

Lt. The development according to the invention shown in FIG. 2, the feed water heated in the air cooler 6 is returned via a three-way motor control valve 13, in part immediately via the feed water line 7 b; on the other hand, it is fed to the radiator 5 of the fresh air suction filter 11 via a pipeline 17 before the return.

After the feed water has released part of its heat content to the radiator 5 , it is fed via a pipe 16 to the feed water line 7 b. A check valve 18 prevents the possible transfer of the feed water flowing back from the radiator 5 into the air cooler 6 . A filter thermostat 14 and the motor of the three-way valve 13 are connected to a regulating and control device 15 via electrical lines. The change of the valve position made by a control circuit corresponds to the amount of energy required to keep the fresh air intake filter 11 free of ice. The information required for this is the respective filter temperature. This information is fed from the filter thermostat 14 to the control loop in the control and control unit 15 .

With the invention, waste heat accumulating in the system is thus collected and used to heat the fresh air intake filter 11 . The guaranteed supply of a constant amount of fresh air ensures a constant power output of the system.

Claims (2)

1. A method for keeping the fresh air intake filter of gas steam turbine systems free of ice, characterized in that the feed water heated in an air cooler ( 6 ) is passed through a radiator ( 5 ) arranged in the fresh air intake filter ( 11 ). ( Fig. 1). 2. The method according to claim 1, characterized in that the heated feed water is branched off by means of a thermostatically controlled three-way motor control valve ( 13 ) from the feed water circuit. ( Fig. 2)