CN203965387U - A kind of steam turbine exhaust steam moisture on-line measurement system based on acoustics - Google Patents

Abstract

The utility model belongs to steam turbine exhaust steam moisture on-line monitoring technique field, relates in particular to a kind of steam turbine exhaust steam moisture on-line measurement system based on acoustics.This system comprises industrial computer, sound card, terminal box, power amplifier, electronic sound source, sonic sensor, temperature sensor, pressure transducer, signal conditioner, data collecting card, display; The principle of utilizing the velocity of sound to change with steam moisture, by measuring the velocity of sound of wet steam, and the parameter such as the temperature and pressure of respective wet steam calculates steam moisture, meets the needs of steam turbine last stage exhaust steam moisture on-line measurement; And electronic sound source, sonic sensor, temperature sensor, pressure transducer height are integrated into acoustics probe are arranged in steam turbine last stage exit, easy to use and reliable property is high, be not subject to the impact of water droplet size in steam turbine, without carrying out sample drawn, be quick on the draw, can measure in real time and record steam moisture, be particularly suitable for the measurement to steam turbine last stage exhaust steam moisture.

Description

A kind of steam turbine exhaust steam moisture on-line measurement system based on acoustics

Technical field

The utility model belongs to steam turbine exhaust steam moisture on-line monitoring technique field, relates in particular to a kind of steam turbine exhaust steam moisture on-line measurement system based on acoustics.

Background technology

Security and the economy of steam moisture on steam turbine has important impact, and steam moisture changes with the variation of load.Therefore significant to the on-line measurement of steam turbine exhaust steam moisture.Can really there be thermodynamic method and optical method for measuring the method for steam turbine exhaust steam moisture at present.

The ultimate principle of thermodynamic method is to sample from turbine discharge, makes it become way flow from two-phase flow after processing.Carry out Extrapolation according to energy conservation and the mass conservation and obtain sample humidity.The precision of all thermodynamic methods is all subject to the impact of sampling method and measurement parameter precision, and measuring process is consuming time longer, is difficult to realize on-line measurement.

It is to be based upon on scattering of light principle basis that optical method is measured steam moisture.When light is when the wet steam, the water droplet in wet steam can produce scattering effect to light, scattered light and transmitted light all with wet steam in the distribution situation of water droplet relevant.Calculate diameter, quantity and the steam moisture of trying to achieve water droplet in wet steam by measuring scattered light or transmitted light.Optical window long term exposure is measuring in air-flow, surperficial vulnerable to pollution and be difficult to remove, and this has limited its application in practice to a great extent.

Utility model content

In order to solve the deficiency of current steam turbine exhaust steam moisture on-line monitoring technique, the utility model proposes a kind of steam turbine exhaust steam moisture on-line measurement system based on acoustics, it is characterized in that, this system comprises acoustic emission module, sound wave receiver module, state monitoring module, signal processing module;

Described acoustic emission module comprises sound card 2, terminal box 3, power amplifier 4, electronic sound source 5; Wherein, sound card 2 is connected with industrial computer 1, is connected with terminal box 3 input ends simultaneously; Power amplifier 4 is connected with terminal box 3 output terminals; Electronic sound source 5 is connected with power amplifier 4 output terminals;

Described sound wave receiver module comprises capture card 10, sonic sensor 6, signal demodulator 9, terminal box 3; Wherein, sonic sensor 6 is connected with the input end of signal conditioner 9, and signal conditioner 9 is connected to terminal box 3 input ends, and terminal box 3 output terminals are connected with data collecting card 10, and data collecting card 10 is connected to industrial computer 1;

Described state monitoring module comprises temperature sensor 7, pressure transducer 8, signal conditioner 9, terminal box 3, data collecting card 10; Temperature sensor 7 is connected with the input end of signal conditioner 9 with pressure transducer 8, and signal conditioner 9 is connected to terminal box 3 input ends, and terminal box 3 output terminals are connected with data collecting card 10, and data collecting card 10 is connected to industrial computer 1;

Described signal processing module comprises industrial computer 1, display 11;

Described electronic sound source 5, sonic sensor 6, temperature sensor 7, the common formation acoustics of pressure transducer 8 probe, and be arranged on steam turbine last stage exit.

Described acoustics probe is rectangular tube, Qi Zhou center has a cable trough e for fixing electronic sound source and sensor wire, before and after its end, two sides has the circulation passage f of square through hole as wet steam, the four sides, middle part of the circulation passage f of wet steam is all provided with electronic sound source 5 and sonic sensor 6, and the middle part upper and lower surface of the circulation passage f of wet steam is all provided with temperature sensor 7 and pressure transducer 8; The porch of the circulation passage f of wet steam is wedge shape, less on the wet steam flow field impact of flowing through.

Before described electronic sound source 5, sonic sensor 6, install waterproof ventilated membrane additional, to avoid the damage of making moist of electroacoustic source and sonic sensor.

Described electronic sound source 5 and sonic sensor 6 quantity are no less than two groups, and sound wave probe has multiple measurement pattern.

The utility model beneficial effect is: the principle of utilizing the velocity of sound to change with steam moisture, by measuring the velocity of sound of wet steam, and the parameter such as the temperature and pressure of respective wet steam calculates steam moisture, meet the needs of steam turbine last stage exhaust steam moisture on-line measurement; And electronic sound source, sonic sensor, temperature sensor, pressure transducer height are integrated into acoustics probe are arranged in steam turbine last stage exit, easy to use and reliable property is high.

Brief description of the drawings

Fig. 1 is the steam turbine exhaust steam moisture on-line measurement system installation site schematic diagram based on acoustics.

Fig. 2 is the steam turbine exhaust steam moisture on-line measurement system diagram based on acoustics;

Wherein, 1-industrial computer, 2-sound card, 3-terminal box, 4-power amplifier, the electronic sound source of 5-, 6-sonic sensor, 7-temperature sensor, 8-pressure transducer, 9-signal conditioner, 10-data collecting card, 11-display.

Fig. 3 a, 3b, 3c are respectively front view, left view, the vertical view of acoustics probe; The wherein circulation passage of the electronic sound source of a-, b-sonic sensor, c-temperature sensor, d-pressure transducer, e-cable trough, f-wet steam.

Fig. 4 a, 4b are respectively single electronic sound source work pattern schematic diagram and two electronic sound source work pattern schematic diagram.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is further described.

A kind of steam turbine exhaust steam moisture on-line measurement system (being designated hereinafter simply as acoustic measurement system) based on acoustics the utility model proposes, as shown in Figure 1, industrial computer is connected with display, and is connected with the acoustics probe that is arranged on steam turbine last stage exit by hardware device.

As shown in Figure 2, industrial computer 1 and display 11 in acoustic measurement system are all deposited in central station of floating dock, can be integrated in control system of power plant.Sound card 2 can be integrated in industrial computer 1.Power amplifier 4, terminal box 3, signal conditioner 9, data collecting card 10 all leave outside in.Be arranged in steam turbine last stage exit by electronic sound source 5, sonic sensor 6, temperature sensor 7, the integrated acoustics probe of pressure transducer 8.

Sound card 2 is connected with industrial computer 1, is connected with terminal box 3 input ends simultaneously; Power amplifier 4 is connected with terminal box 3 output terminals; Electronic sound source 5 is connected with power amplifier 4 output terminals, thus the acoustic emission module of complete; Sonic sensor 6 is connected with the input end of signal conditioner 9, and signal conditioner 9 is connected to terminal box 3 input ends, and terminal box 3 output terminals are connected with data collecting card 10, and data collecting card 10 is connected to industrial computer 1, the sound wave receiver module of complete; Temperature sensor 7 is connected with the input end of signal conditioner 9 with pressure transducer 8, signal conditioner 9 is connected to terminal box 3 input ends, terminal box 3 output terminals are connected with data collecting card 10, and data collecting card 10 is connected to industrial computer 1, the state monitoring module of complete.Form sonicated module by industrial computer 1 and display.

As shown in Fig. 3 a～3c, a, b in acoustics probe, c, d are the installation site of electronic sound source 5, sonic sensor 6, temperature sensor 7, pressure transducer 8, and e is cable trough, the circulation passage that f is wet steam.Acoustics probe is rectangular tube, Qi Zhou center has a cable trough for fixing electronic sound source and sensor wire, before and after its end, two sides has the circulation passage of square through hole as wet steam, the four sides, middle part of the circulation passage of wet steam is all provided with electronic sound source 5 and sonic sensor 6, and the middle part upper and lower surface of the circulation passage of wet steam is all provided with temperature sensor 7 and pressure transducer 8.Turbine discharge flows through via the circulation passage f of probe, and the relevant different parameter of probe measurement, is connected with relevant device by the cable that is positioned at e.

As shown in Fig. 4 a, 4b, be all furnished with sonic sensor and electronic sound source in a, b, c, tetra-positions of d.According to the service condition of different sonic sensors and electronic sound source, system has multiple measurement pattern, and this patent only carries out example explanation to following two kinds of patterns.

Fig. 4 a is single electronic sound source pattern (hereinafter referred to as pattern 1).In pattern 1 situation, sound wave is sent by electronic sound source b, and the sonic sensor b that is positioned at b position receives sound wave.Sound wave propagates into respectively a, c, d position via circulation passage, is received by corresponding sonic sensor.By the fly over measurement of time of sound wave, can be used for determining the average velocity of sound wave on travel path.

Fig. 4 b is two electronic sound source patterns (hereinafter referred to as pattern 2).In pattern 2 situations, sound wave is sent by electronic sound source a and electronic sound source c, and the sonic sensor of co-located can receive sound wave with it.Sound wave propagates into respectively other positions via circulation passage, is received by corresponding sonic sensor.By the fly over measurement of time of sound wave, can be used for determining the average velocity of sound wave on travel path.

When system works, industrial computer 1 makes electronic sound source 5 produce required acoustic signals by sound card 2, and acoustic signals is detected reception by the sonic sensor 6 of the same side, and sound wave is propagated and detected reception by other acoustic receivers 6 through circulation passage.Acoustic receiver 6 is converted to electric signal transmission to signal conditioner 9 by acoustic signals, by signal conditioner 9 filtering and amplification, received by data collecting card 10, the signal that industrial computer 1 obtains data collecting card 10 is analyzed, and obtains thus the sound wave time τ that flies over.The distance L of Acoustic Wave Propagation is determined by the size of probe, is fixed value.Be positioned at temperature T and pressure P that the temperature sensor 7 of probe sidewall and pressure transducer 8 can record circulation passage wet steam, received by signal conditioner 9 through the input end of terminal box 3, by signal conditioner 9 filtering and amplification, obtained by data collecting card 10; Industrial computer 1 is analyzed the signal of acquisition, calculates saturated vapour corresponding under this temperature, pressure and the parameters of saturation water; The parameters that industrial computer utilization obtains, calculates steam moisture and correlation parameter is shown by display.

The above; it is only preferably embodiment of the utility model; but protection domain of the present utility model is not limited to this; any be familiar with those skilled in the art the utility model disclose technical scope in; the variation that can expect easily or replacement, within all should being encompassed in protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (4)

1. the steam turbine exhaust steam moisture on-line measurement system based on acoustics, is characterized in that, this system comprises acoustic emission module, sound wave receiver module, state monitoring module, signal processing module;

Described acoustic emission module comprises sound card (2), terminal box (3), power amplifier (4), electronic sound source (5); Wherein, sound card (2) is connected with industrial computer (1), is connected with terminal box (3) input end simultaneously; Power amplifier (4) is connected with terminal box (3) output terminal; Electronic sound source (5) is connected with power amplifier (4) output terminal;

Described sound wave receiver module comprises capture card (10), sonic sensor (6), signal demodulator (9), terminal box (3); Wherein, sonic sensor (6) is connected with the input end of signal conditioner (9), signal conditioner (9) is connected to terminal box (3) input end, terminal box (3) output terminal is connected with data collecting card (10), and data collecting card (10) is connected to industrial computer (1);

Described state monitoring module comprises temperature sensor (7), pressure transducer (8), signal conditioner (9), terminal box (3), data collecting card (10); Temperature sensor (7) is connected with the input end of signal conditioner (9) with pressure transducer (8), signal conditioner (9) is connected to terminal box (3) input end, terminal box (3) output terminal is connected with data collecting card (10), and data collecting card (10) is connected to industrial computer (1);

Described signal processing module comprises industrial computer (1), display (11);

Described electronic sound source (5), sonic sensor (6), temperature sensor (7), pressure transducer (8) form acoustics probe jointly, and are arranged on steam turbine last stage exit.

2. system according to claim 1, it is characterized in that, described acoustics probe is rectangular tube, Qi Zhou center has a cable trough (e) for fixing electronic sound source and sensor wire, before and after its end, two sides has the circulation passage (f) of square through hole as wet steam, the four sides, middle part of the circulation passage (f) of wet steam is all provided with electronic sound source (5) and sonic sensor (6), and the middle part upper and lower surface of the circulation passage (f) of wet steam is all provided with temperature sensor (7) and pressure transducer (8); The porch of the circulation passage (f) of wet steam is wedge shape, less on the wet steam flow field impact of flowing through.

3. system according to claim 1, is characterized in that, described electronic sound source (5), the front waterproof ventilated membrane that installs additional of sonic sensor (6), to avoid the damage of making moist of electroacoustic source and sonic sensor.

4. system according to claim 1, is characterized in that, described electronic sound source (5) and sonic sensor (6) quantity are no less than two groups, and sound wave probe has multiple measurement pattern.