CN108007666A - A kind of routine hypersonic wind tunnel air-flow afterheat utilizing system - Google Patents

Abstract

The invention discloses a kind of conventional hypersonic wind tunnel air-flow afterheat utilizing system, which includes waste heat storage system, circulating heat exchange system, Measurement and Control System and two shut-off valves；Two shut-off valves are separately positioned on wind-tunnel admission line before wind-tunnel heat exchanger and on wind-tunnel discharge duct after wind-tunnel heat exchanger；Waste heat storage system is used to store heater waste heat, and circulating heat exchange system is used to export the waste heat of wind tunnel heater, and is transferred to waste heat storage；Systematic survey control system is used for status monitoring, the control of State Transferring, security control and the measurement of status data, processing etc..Change of the application to conventional hypersonic wind tunnel equipment is minimum, does not influence the performance of original equipment；The cooling to wind tunnel heater and wind tunnel noumenon is realized, not only takes full advantage of the waste heat of heater, and make use of the after-heat of wind-tunnel miscellaneous part.

Description

A kind of routine hypersonic wind tunnel air-flow afterheat utilizing system

Technical field

The present invention relates to hypersonic wind tunnel field of waste heat utilization, and in particular to more than a kind of routine hypersonic wind tunnel air-flow Heat utilization system.

Background technology

Conventional hypersonic wind tunnel is the hypersonic wind tunnel using pure air as working media and with convection type heating, It is that hypersonic aircraft develops indispensable testing equipment.The fifties in last century, in order to meet that hypersonic aircraft develops need Will, people start to build conventional hypersonic wind tunnel, henceforth, conventional high with the continuous development of hypersonic aircraft Among supersonic wind tunnel is constantly in transformation and builds, the scale of equipment is increasing.In terms of the outlet size of wind tunnel nozzle, often Hypersonic wind tunnel is advised from initial 200~300mm magnitudes, develops into current 1000~1200mm magnitudes.Prospect is high from now on The development of supersonic aircraft, the U.S. propose construction demand to 2400~3000mm magnitude routines hypersonic wind tunnel.

But with the increase of tunnel size, the energy spent by wind tunnel operation increases sharply.With conventional hypersonic wind Exemplified by the heating power required in Mach number 5 to 8 of hole, heating power needed for various sizes of wind-tunnel is：500~700mm amounts Level, about 6~8 megawatts of required heating power；2400~3000mm magnitudes, about 250~320 megawatts of required heating power.

How under conditions of meeting hypersonic aircraft experiment to tunnel size requirement, energy during wind tunnel operation is saved Amount consumption, it has also become the major issue that conventional hypersonic wind tunnel designing technique development must take into consideration.

At present, the utilization of air-flow waste heat is not considered in conventional hypersonic wind tunnel design both domestic and external.For using storage The conventional hypersonic wind tunnel of hot type heating, Wang Tiejin etc. delivered in 2016 on following large-scale conventional hypersonic wind tunnel Project study in, for the wind-tunnel of 2400~3000mm magnitudes, it is proposed that a kind of method of waste heat recovery, as shown in Figure 1, its Process is as follows：The tunnel airstream of low temperature first passes around wind-tunnel heat exchanger in the direction of the arrow, is then heated by heater, and air-flow reaches To certain temperature, meet requirement of experiment, then air-flow completes test function, but air-flow stream in experimentation into wind tunnel noumenon is crossed Measure constant, only consume part kinetic energy and thermal energy, then, air-flow outflow wind tunnel noumenon, during by wind-tunnel heat exchanger, by partial heat energy Change the tunnel airstream to the low temperature for having just enter into wind-tunnel heat exchanger.After wind-tunnel heat exchanger, air-flow is discharged into air.The program When only realizing wind-tunnel work, the recycling of after-heat in air-flow, and after can not realizing that wind-tunnel is stopped, remained in heater The recycling of excess heat.Remaining heat is suitable with the heat consumed during wind tunnel operation in wind tunnel heater, but in current wind In the design of hole, in order to protect heater, after the test, the mode of generally use ventilation cooling, by the heat in heater It is discharged into air and dissipates.

The content of the invention

For problems of the prior art, it is an object of the invention to provide a kind of conventional hypersonic wind tunnel air-flow Afterheat utilizing system, its change to conventional hypersonic wind tunnel equipment is minimum, does not influence the performance of original equipment；Realize to wind The cooling of hole heater and wind tunnel noumenon, not only takes full advantage of the waste heat of heater, and make use of wind-tunnel miscellaneous part After-heat.

To achieve the above object, the present invention uses following technical scheme：

A kind of routine hypersonic wind tunnel air-flow afterheat utilizing system, the afterheat utilizing system include waste heat storage system System, circulating heat exchange system, Measurement and Control System and two shut-off valves；Two shut-off valves are separately positioned on wind-tunnel air inlet pipe On road before wind-tunnel heat exchanger and on wind-tunnel discharge duct after wind-tunnel heat exchanger；The waste heat storage system include heat exchanger and The storage container and medium being connected with the heat exchanger；The circulating heat exchange system includes dynamical system, transmission medium, medium and mends Fill device, valve and pipeline；The medium replensiher, heat exchanger and the dynamical system are sequentially connected by the pipeline, shape Into the gas channel of the circulating heat exchange system, the both ends of this passage are passed through into the valve and wind-tunnel admission line and row respectively Feed channel is connected, and with the interface that wind-tunnel admission line is connected before wind-tunnel heat exchanger, the interface being connected with discharge duct is in wind-tunnel After heat exchanger；The Measurement and Control System includes host, programmable controller, TT＆C software, display, switch board, sensor And connection circuit, for status monitoring, the control of State Transferring, security control and the measurement of status data, processing.

Further, the interface that the gas channel of the circulating heat exchange system is connected with wind-tunnel admission line and discharge duct Threeway connection is respectively adopted, the connection of pipeline everywhere uses flanged joint.

Further, before circulating heat exchange system operation, two valves are closed, and gas channel is filled with the transmission Medium.

The present invention has following advantageous effects：

(1) change of the application to conventional hypersonic wind tunnel equipment is minimum, does not influence the performance of original equipment；

(2) cooling to wind tunnel heater and wind tunnel noumenon is realized, not only takes full advantage of the waste heat of heater, and It make use of the after-heat of wind-tunnel miscellaneous part；

(3) safety of equipment is protected, reduces maintenance cost, extends maintenance time and its service life；

(4) energy saving and two kinds of functions of cooling combination is realized.

Brief description of the drawings

Fig. 1 is the structure diagram of conventional hypersonic wind tunnel afterheat utilizing system in the prior art；

Fig. 2 is the structure diagram of conventional hypersonic wind tunnel afterheat utilizing system in the present invention.

Embodiment

In the following, refer to the attached drawing, more fully illustrates the present invention, shown in the drawings of the exemplary implementation of the present invention Example.However, the present invention can be presented as a variety of multi-forms, it is not construed as being confined to the exemplary implementation described here Example.And these embodiments are to provide, so that the present invention is fully and completely, and it will fully convey the scope of the invention to this The those of ordinary skill in field.

Since large-scale conventional hypersonic wind tunnel is a kind of close-fitting package of complicated multisystem, parameter it is more and Index is high, builds and operating cost is high.Under normal circumstances, after wind-tunnel is built up, debug by operation, after performance determines, do not permit Perhaps the change unrelated with performance is carried out.Therefore, UTILIZATION OF VESIDUAL HEAT IN will ensure to influence for the performance of wind-tunnel facilities minimum.

On the basis of analyzing, summarizing existing residual-heat utilization technology, air-flow residual-heat utilization method when this patent combines operation With the equipment cooling means of conventional hypersonic wind tunnel generally use, it is proposed that a set of new system to heater UTILIZATION OF VESIDUAL HEAT IN.

As shown in Fig. 2, the present invention provides a kind of conventional hypersonic wind tunnel air-flow afterheat utilizing system, the UTILIZATION OF VESIDUAL HEAT IN System includes waste heat storage system, circulating heat exchange system, Measurement and Control System and two shut-off valves；Two shut-off valves are set respectively Put on wind-tunnel admission line before wind-tunnel heat exchanger and on wind-tunnel discharge duct after wind-tunnel heat exchanger；Waste heat storage system includes Heat exchanger and the storage container and medium being connected with heat exchanger；Circulating heat exchange system includes dynamical system, transmission medium, medium Replensiher, valve and pipeline；Medium replensiher, heat exchanger and dynamical system are sequentially connected by pipeline, form cycle heat exchange The gas channel of system, the both ends of this passage is connected by valve with wind-tunnel admission line and discharge duct respectively, with wind-tunnel The interface that admission line is connected is before wind-tunnel heat exchanger, and the interface being connected with discharge duct is after wind-tunnel heat exchanger；Measurement control System includes host, programmable controller, TT＆C software, display, switch board, sensor and connection circuit, for state Monitoring, the control of State Transferring, security control and the measurement of status data, processing.

The interface punishment that the gas channel of the circulating heat exchange system of the application is connected with wind-tunnel admission line and discharge duct Not Cai Yong threeway connection, the connection of pipeline everywhere uses flanged joint.Before circulating heat exchange system operation, two valves close Close, gas channel is filled with transmission medium.

The course of work of the conventional hypersonic wind tunnel air-flow afterheat utilizing system of the present invention is as follows：

(1) Measurement and Control System monitoring wind tunnel operation state, after wind-tunnel is out of service, closes on wind-tunnel main pipeline and newly increases Two shutoff valves；At this moment heater, pneumatic body and wind-tunnel heat exchanger and its connecting pipe form the air-flow of a closing Passage；Since wind-tunnel has been stopped, do not flowed in pipeline；Heater also has substantial amounts of waste heat.(2) two valves of main pipeline After closing, two valves on the gas channel of circulating heat exchange system are opened；At this moment, heater, pneumatic body and wind-tunnel heat exchange Device and its connecting pipe form the gas channel of a closing, are connected with the gas channel of circulating heat exchange system；Transmission medium by Gradually it is full of whole passage.(3) start dynamical system, circulating heat exchange system is worked；Transmission medium forms stream in whole passage It is dynamic, the after-heat on heater is taken away, during heat exchanger by waste heat storage system, releases heat, becomes low-temperature airflow, So as to fulfill the recycling of heater waste heat.(4) control system monitors waste heat storage system and the state of wind tunnel heater, and judgement is Whether the waste heat of no increase waste heat storage system and wind tunnel heater reaches setting value.(5) waste heat of wind tunnel heater, which reaches, sets After definite value, dynamical system is closed, closes circulating heat exchange system valve.

Measurement and Control System involved in the application belongs to the conventional TT＆C system of this area, and details are not described herein.

It is described above simply to illustrate that of the invention, it is understood that the invention is not limited in above example, meets The various variants of inventive concept are within protection scope of the present invention.

Claims (3)

1. a kind of routine hypersonic wind tunnel air-flow afterheat utilizing system, it is characterised in that the afterheat utilizing system includes remaining Hot storage system, circulating heat exchange system, Measurement and Control System and two shut-off valves；Two shut-off valves are separately positioned on wind On the admission line of hole before wind-tunnel heat exchanger and on wind-tunnel discharge duct after wind-tunnel heat exchanger；The waste heat storage system includes changing Hot device and the storage container and medium being connected with the heat exchanger；The circulating heat exchange system includes dynamical system, transmission is situated between Matter, medium replensiher, valve and pipeline；The medium replensiher, heat exchanger and the dynamical system by the pipeline according to Secondary connection, forms the gas channel of the circulating heat exchange system, by the both ends of this passage respectively by the valve and wind-tunnel into Feed channel is connected with discharge duct, with the interface that wind-tunnel admission line is connected before wind-tunnel heat exchanger, is connected with discharge duct Interface is after wind-tunnel heat exchanger；The Measurement and Control System includes host, programmable controller, TT＆C software, display, control Cabinet, sensor and connection circuit, for status monitoring, the control of State Transferring, security control and the measurement of status data, Processing.

2. routine hypersonic wind tunnel air-flow afterheat utilizing system according to claim 1, it is characterised in that the circulation Threeway connection is respectively adopted with the interface that wind-tunnel admission line and discharge duct connect in the gas channel of heat-exchange system, manages everywhere The connection in road uses flanged joint.

3. routine hypersonic wind tunnel air-flow afterheat utilizing system according to claim 1, it is characterised in that followed described Before the operation of ring heat-exchange system, two valves are closed, and gas channel is filled with the transmission medium.