CN204514629U - A kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing - Google Patents

Abstract

The utility model discloses a kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing, comprise electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section; Centrifugal blower is arranged at air inlet, the air outlet of centrifugal blower is divided into two-way by pipeline, be provided with electrical heating test section, flue gas heat-exchange unit simulation test section on the way successively, flue gas heat-exchange unit simulation test section connects high-order open axial flow fan, and the connecting tube of flue gas heat-exchange unit simulation test section and high-order open axial flow fan is provided with automatic regulating valve and water circulating pump; Separately be disposed with air temperature modification test section and preheating of air test section on the way, preheating of air test section is connected by pipeline with flue gas heat-exchange unit simulation test section, and water circulating pump connects preheating of air test section by pipeline; The utility model can carry out heat exchange, the drag characteristic test of each heat-exchanging tube bundle, the dynamic response test under different affecting factors, and the control characteristic test of system reliability.

Description

A kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing

Technical field

The utility model relates to a kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing.

Background technology

The general layout that the energy structure of China determines based on coal fired power generation does not have large change within a very long time.In recent years, China's electric power installed capacity speedup is swift and violent, by the end of the year 2013, whole nation electric power installation total volume has reached 12.47 hundred million kilowatts, and be only second to the U.S., wherein thermoelectricity is 8.62 hundred million kilowatts, account for 69% of national total installation of generating capacity, and estimate will reach 9.33 hundred million kilowatts China's thermoelectricity installed capacity in 2015, thermoelectricity generated energy accounts for more than 80% of gross generation, year consumes fire coal and can reach more than 2,000,000,000 tons." energy-saving and emission-reduction " of Large-scale fire-electricity unit are the important energy source policies of country always, and each power plant is faced with energy-conservation great potential.

In every loss of boiler, flue gas loss is maximum one, reduces exhaust gas temperature and has important practical significance for energy-saving and emission-reduction.Current exhaust gas temperature is generally 120-140 DEG C, and exhaust gas temperature often reduces by 10 ~ 20 DEG C, and boiler thermal output improves about 0.6% ~ 1%, the corresponding coal 1.2% ~ 2.4% of consumption less.Boiler tail smoke discharging residual heat belongs to low-grade heat source, has the features such as exhaust gas volumn is large, energy density is low, recovery is difficult; But its Exploitative potential is huge, if can make full use of, not only can saves mass energy, bring considerable economic results in society, solve energy shortage problem, significantly can also reduce environmental pollution.Research at present about smoke discharging residual heat utilization is a lot, can introduce steam heat regenerative system as backheat heat, for adding Hot gas turbine condensate water, or by heating air preheater import cold air to introduce boiler, all have certain energy-saving effect.

At present, although the theoretical research " utilizing smoke discharging residual heat to heat air preheater import cold air to introduce boiler energy-saving system " is very abundant, practical engineering experience is still not enough, and especially power plant's site environment is complicated, a lot of position is not suitable for installing measuring point, and measurement is installed restricted; Some measurement mechanism aged deterioration, causes measurement result inaccurate; Only according to design conditions certainty annuity place capacity, do not analyze variable working condition and limiting condition, cause system reliability imperfection; Adopt process modeling software to carry out simulation calculation, the result obtained has limitation.

Utility model content

The utility model, in order to solve the problem, proposes a kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing, and this device, on the basis meeting power plant's each equipment flow field similarity principle, simplifies system, ensures measurement accuracy; Simulate flowing, the heat transfer characteristic of each equipment according to power plant system actual condition, system is emulated.

To achieve these goals, the utility model adopts following technical scheme:

A kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing, comprises centrifugal blower, test section, simulation component, automatic regulating valve and measurement mechanism, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, is provided with electrical heating test section, flue gas heat-exchange unit simulation test section on the way successively;

Separately be disposed with air temperature modification test section and preheating of air test section on the way, preheating of air test section is connected by pipeline with flue gas heat-exchange unit simulation test section;

Pipeline is outside equipped with simulation component, and simulation component comprises expansion tank, water circulating pump and water bath with thermostatic control, is connected with test section;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

The air outlet place of described centrifugal blower is provided with controllable register valve, and the air inlet end of electrical heating test section and air temperature modification test section is provided with controllable register valve.

1, for the heat exchange of heat-exchanging tube bundle, the emulation testing experimental provision of drag characteristic test, centrifugal blower, test section, simulation component and measurement mechanism is comprised, wherein:

Described test section comprises flue gas heat-exchange unit simulation test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, and a road is provided with flue gas heat-exchange unit simulation test section, is separately provided with preheating of air test section on the way;

Pipeline is outside equipped with simulation component, water bath with thermostatic control, the inlet tube and outlet tube of water bath with thermostatic control is connected with the inlet tube and outlet tube of flue gas heat-exchange unit simulation test section heat-exchanging tube bundle to be determined, preheating of air test section heat-exchanging tube bundle respectively, form recirculated water closed-loop, water bath with thermostatic control is provided with constant temperature water tank ebullator;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

Described measurement mechanism comprises pitot tube, electronic micro-manometer and spinner-type flowmeter, wherein, flue gas heat-exchange unit simulation test section and preheating of air test section rear end respectively arrange a pitot tube, pitot tube connects electronic micro-manometer, and between constant temperature water tank ebullator and to be tested section, water loops is provided with spinner-type flowmeter.

The inlet tube and outlet tube of described water bath with thermostatic control is connected with total inlet tube and outlet tube of the heat-exchanging tube bundle to be determined of flue gas heat-exchange unit simulation test section and preheating of air test section respectively, forms recirculated water closed-loop; The air channel regulation gate valve of heat-exchanging tube bundle to be measured is opened, and another air channel regulation gate valve closes.

The mean wind speed of the current stabilization xsect of test section measured by described pitot tube and microbarograph, and before and after flue gas heat-exchange unit simulation test section and preheating of air test section both sides set temperature sensor, with data acquisition unit by time determination test section import and export wind-warm syndrome.

Described water bath with thermostatic control is connected with heat-exchanging tube bundle and supplies water to heat-exchanging tube bundle through centrifugal water pump, spinner-type flowmeter, the connection inlet tube and outlet tube of water bath with thermostatic control between heat-exchanging tube bundle installs water inlet, leaving water temperature sensors, with data acquisition unit by time determination test section import and export water temperature.

2, for the emulation testing experimental provision of the dynamic response test under different affecting factors, centrifugal blower, test section, simulation component and measurement mechanism is comprised, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, utilizes flashboard controlled wind speed respectively, to meet the throughput ratio of fume side and air side; Air is first through electrical heating test section on the way, with dry combustion method air electric heating tube by after air heat, enters flue gas heat-exchange unit simulation test section, carries out heat exchange;

On another road, air is first through air temperature modification test section, after air heat or cooling, enter preheating of air test section, carry out heat exchange, together with the air that preheating of air test section is discharged and the flue gas heat-exchange unit simulation test section air of discharging outside discharge chamber, respectively at rectangular duct import and export design temperature and the wind speed measuring point of flue gas heat-exchange unit simulation test section, electrical heating test section, preheating of air test section and air temperature modification test section;

Pipeline is outside equipped with simulation component, simulation component comprises water bath with thermostatic control, expansion tank, the inlet tube and outlet tube of water bath with thermostatic control is connected with the inlet tube and outlet tube of the heat-exchanging tube bundle of air temperature modification test section respectively, forms recirculated water closed-loop, air preheater entering air temperature is regulated; Preheating of air test section and flue gas heat-exchange unit simulation test section, by the mode connecting water pipe of bottom in and top out, form closed cycle loop, and arrange expansion tank in water circulating pump porch, carry out water-supply and pressure-stabling;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

Described flue gas heat-exchange unit simulation test section adopts H type finned tube or spiral fin coil along row or stagger arrangement arrangement, preheating of air test section adopts spiral fin coil tube bank along row or stagger arrangement arrangement, pipe Inner eycle water flow, two test sections all adopt the mode of bottom in and top out to carry out connecting water pipe, recirculated water rises at flue gas heat-exchange unit simulation test section endothermic temperature, decline at preheating of air test section exothermic temperature, form closed cycle loop, change flow by ebullator and carry out variable-flow working condition tests, and open type high expansion water box is set carries out level pressure, pipeline section place design temperature measuring point is imported and exported respectively in the header of water up and down of flue gas heat-exchange unit simulation test section and preheating of air test section, obtain the out temperature of water side each point.

Described air temperature modification test section adopts rectangle elliptical fin tube bank arrangement, the water of water bath with thermostatic control is as at Bottomhole pressure, the inlet air temp before preheating of air test section is regulated by the water temperature of regulating thermostatic water-bath, and import and export pipeline section place design temperature measuring point in the header of water up and down of test section, obtain the out temperature of water side.

Described electrical heating test section adopts dry combustion method air electric heating tube to heat air, adopts high temperature air simulated flue gas, in order to ensure the constant of heated air temperature, and additional temperature regulating device; Adopt the temperature-controlling system of intelligent PID temperature controller and SSR solid-state relay, temperature controller, by being arranged on the thermopair measuring point Real-Time Monitoring flue temperature in flue, controls adhesive and the disconnection of solid-state relay on this basis, finally reaches experiment temperature required.

3, for the emulation testing experimental provision that the control characteristic of system reliability is tested, centrifugal blower, test section, simulation component, automatic regulating valve and measurement mechanism is comprised, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, is provided with electrical heating test section, flue gas heat-exchange unit simulation test section on the way successively;

Separately be disposed with air temperature modification test section and preheating of air test section on the way, preheating of air test section is connected by pipeline with flue gas heat-exchange unit simulation test section;

Pipeline is outside equipped with simulation component, and simulation component comprises expansion tank and water bath with thermostatic control, and expansion tank and the outlet of flue gas heat-exchange unit simulation test section draw arm respectively, and configure automatic regulating valve, access flue gas heat-exchange unit simulation test section porch; Be connected by the inlet tube and outlet tube of the inlet tube and outlet tube of water bath with thermostatic control with air temperature modification test section heat-exchanging tube bundle, form recirculated water closed-loop, water bath with thermostatic control is provided with constant temperature water tank ebullator;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

Described air temperature modification test section connects water bath with thermostatic control, water bath with thermostatic control connects constant temperature water tank ebullator, constant temperature water tank ebullator connects air temperature modification test section, forms circulation, and is provided with spinner-type flowmeter between constant temperature water tank ebullator and air temperature modification test section.

The ducting outlet place set temperature sensor of described flue gas heat-exchange unit simulation test section and preheating of air test section, by automatic regulating valve, FEEDBACK CONTROL adjustment is carried out to arm flow, control the ducting outlet temperature constant of flue gas heat-exchange unit simulation test section and preheating of air test section respectively.

The beneficial effects of the utility model are:

Power plant for energy conservation smoke discharging residual heat for " utilizing smoke discharging residual heat to heat air preheater import cold air to introduce boiler energy-saving system " utilizes system to carry out analog simulation, on the basis meeting power plant's each equipment flow field similarity principle, simplification system, can ensure measurement accuracy; Simulate flowing, the heat transfer characteristic of each equipment according to power plant system actual condition, system is emulated; Heat exchange, the drag characteristic test of each heat-exchanging tube bundle can be carried out, the dynamic response test under different affecting factors at this experiment table, and the control characteristic test of system reliability; For power plant's Practical Project design, run provide reliable test figure basis, and variable working condition prediction change curve.

Accompanying drawing explanation

Fig. 1 is energy-saving system for power plant emulation testing pilot system schematic diagram;

Fig. 2 is the utility model for the heat exchange of heat-exchanging tube bundle, drag characteristic test schematic diagram;

Fig. 3 is that the utility model is for the dynamic response test schematic diagram under different affecting factors;

Fig. 4 is the control characteristic test schematic diagram of the utility model for system reliability.

Wherein, A-air inlet; B-blower fan; C-electrical heating test section; D-flue gas heat-exchange unit simulation test section; E-air temperature modification test section; F-preheating of air test section; G-water circulating pump; The high-order open axial flow fan of H-; J-can set temperature and record the heat time electrical heating water bath with thermostatic control; K-constant temperature water tank ebullator; L-controllable register valve; M-exhaust outlet; N-data acquisition unit; S-automatic regulating valve; 1-12-electric thermo-couple temperature measuring point; 13-16-pitot tube; 17-electronic micro-manometer; 18-spinner-type flowmeter, in figure, this part test section of empty this experiment condition of wire frame representation does not need to run.

Embodiment:

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

As shown in Figure 1, the device in this test platform comprise centrifugal blower B, air channel regulating gate, electrical heating test section C, flue gas heat-exchange unit simulation test section D, air temperature modification test section E, preheating of air test section F, water circulating pump G, high-order open axial flow fan H, can set temperature and the record electrical heating water bath with thermostatic control J of heat time, the supporting ebullator of water bath with thermostatic control, data acquisition unit N, automatic regulating valve S; Measurement mechanism comprises pitot tube, electronic micro-manometer, air channel measuring point temperature sensor, recirculated water measuring tempeature sensor, spinner-type flowmeter.

In order to the Test Cycle of clear this experiment table of statement, be that benchmark is divided into three parts to be described embodiment with accompanying drawing.

1, heat-exchanging tube bundle heat exchange, drag characteristic test

This platform can measure flue gas heat-exchange unit simulation test section D heat-exchanging tube bundle, the heat exchange of preheating of air test section F heat-exchanging tube bundle, drag characteristic, during measurement, respectively the inlet tube and outlet tube of water bath with thermostatic control is connected with total inlet tube and outlet tube of heat-exchanging tube bundle to be determined respectively, forms recirculated water closed-loop; The air channel regulation gate valve of heat-exchanging tube bundle to be measured is opened, and another air channel regulation gate valve closes.

" nine grids " method of employing, obtains with pitot tube and microbarograph measurements the mean wind speed obtaining current stabilization xsect, and at heat-exchanging tube bundle test section priority both sides set temperature sensor, with data acquisition unit N by time determination test section import and export wind-warm syndrome.

Can to be connected with heat-exchanging tube bundle with the electrical heating water bath with thermostatic control J of record heat time and to supply water to heat-exchanging tube bundle through centrifugal water pump, spinner-type flowmeter by set temperature, the connection inlet tube and outlet tube of water bath with thermostatic control between heat-exchanging tube bundle installs water inlet, leaving water temperature sensors, with data acquisition unit N by time determination test section import and export water temperature.

Water bath with thermostatic control adopts electrically heated mode, has the function of heating pipe built-in Shu Yunhang timing, accurately can calculate electrical heating power, for heat Balance Calculation; Can regulating thermostatic coolant-temperature gage voluntarily, precision can reach ± and 0.5 DEG C.

2, the dynamic response test under different affecting factors

This platform can measure the dynamic response test of system under flue gas heat-exchange unit simulation test section D heat-exchanging tube bundle, preheating of air test section F heat-exchanging tube bundle different affecting factors, during measurement, two-way air is drawn by total air channel of fan outlet, use flashboard controlled wind speed respectively, to meet the throughput ratio of fume side and air side; Wherein a road air is first through electrical heating test section C, with dry combustion method air electric heating tube by after air heat, enters flue gas heat-exchange unit simulation test section D, carries out heat exchange; Another road air is first through air temperature modification test section E, after air heat or cooling, enter preheating of air test section F, carry out heat exchange, together with the air that the air that preheating of air test section F discharges and flue gas heat-exchange unit simulation test section D discharge outside discharge chamber, respectively at rectangular duct import and export design temperature and the wind speed measuring point of flue gas heat-exchange unit simulation test section D, electrical heating test section C, preheating of air test section F and air temperature modification test section E, " nine grids " method of employing, obtains mean wind speed and the temperature of each xsect in air channel.

Wherein, flue gas heat-exchange unit simulation test section D adopts H type finned tube or spiral fin coil along row or stagger arrangement arrangement, preheating of air test section F adopts spiral fin coil tube bank along row or stagger arrangement arrangement, pipe Inner eycle water flow, two test sections all adopt the mode of bottom in and top out to carry out connecting water pipe, recirculated water rises at flue gas heat-exchange unit simulation test section D endothermic temperature, decline at preheating of air test section F exothermic temperature, form closed cycle loop, change flow by ebullator and carry out variable-flow working condition tests, and open type high expansion water box is set carries out level pressure, pipeline section place design temperature measuring point is imported and exported respectively in the header of water up and down of flue gas heat-exchange unit simulation test section D and preheating of air test section F, obtain the out temperature of water side each point.

Electrical heating test section C adopts dry combustion method air electric heating tube to heat air, adopts high temperature air simulated flue gas, in order to ensure the constant of heated air temperature, and additional temperature regulating device; Adopt the temperature-controlling system of intelligent PID temperature controller and SSR solid-state relay, temperature controller, by being arranged on the thermopair measuring point Real-Time Monitoring flue temperature in flue, controls adhesive and the disconnection of solid-state relay on this basis, finally reaches experiment temperature required.

Air temperature modification test section E adopts original rectangle elliptical fin to restrain arrangement, the water of water bath with thermostatic control is as at Bottomhole pressure, the inlet air temp before preheating of air test section F is regulated by the water temperature of regulating thermostatic water-bath, and import and export pipeline section place design temperature measuring point in the header of water up and down of test section, obtain the out temperature of water side.

3, the control characteristic test of system reliability

This platform can measure the control characteristic test of system reliability under different affecting factors, during measurement, draw arm respectively from high-order open axial flow fan H and flue gas heat-exchange unit simulation test section D outlet, and configure automatic regulating valve S, access flue gas heat-exchange unit simulation test section D porch; Respectively at the ducting outlet place set temperature sensor of flue gas heat-exchange unit simulation test section D and preheating of air test section F, by automatic regulating valve S, FEEDBACK CONTROL adjustment is carried out to arm flow, control the ducting outlet temperature constant of flue gas heat-exchange unit simulation test section D and preheating of air test section F respectively, and record the Parameters variation situation of each measuring point of dynamic test, obtain the control characteristic test findings of system reliability.

By reference to the accompanying drawings embodiment of the present utility model is described although above-mentioned; but the restriction not to the utility model protection domain; one of ordinary skill in the art should be understood that; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.

Claims (10)

1. a power-plant flue gas bootstrap system performance simulation experimental apparatus for testing, is characterized in that: comprise centrifugal blower, test section, simulation component, automatic regulating valve and measurement mechanism, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, is provided with electrical heating test section, flue gas heat-exchange unit simulation test section on the way successively;

Separately be disposed with air temperature modification test section and preheating of air test section on the way, preheating of air test section is connected by pipeline with flue gas heat-exchange unit simulation test section;

Pipeline is outside equipped with simulation component, and simulation component comprises expansion tank, water circulating pump and water bath with thermostatic control, is connected with test section;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

2. a kind of power-plant flue gas bootstrap system performance simulation experimental apparatus for testing as claimed in claim 1, it is characterized in that: the air outlet place of described centrifugal blower is provided with controllable register valve, the air inlet end of electrical heating test section and air temperature modification test section is provided with controllable register valve.

3., for the heat exchange of heat-exchanging tube bundle, an emulation testing experimental provision for drag characteristic test, it is characterized in that: comprise centrifugal blower, test section, simulation component and measurement mechanism, wherein:

Described test section comprises flue gas heat-exchange unit simulation test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, and a road is provided with flue gas heat-exchange unit simulation test section, is separately provided with preheating of air test section on the way;

Pipeline is outside equipped with simulation component, water bath with thermostatic control, the inlet tube and outlet tube of water bath with thermostatic control is connected with the inlet tube and outlet tube of flue gas heat-exchange unit simulation test section heat-exchanging tube bundle to be determined, preheating of air test section heat-exchanging tube bundle respectively, form recirculated water closed-loop, water bath with thermostatic control is provided with constant temperature water tank ebullator;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

4. emulation testing experimental provision as claimed in claim 3, it is characterized in that: described measurement mechanism comprises pitot tube, electronic micro-manometer and spinner-type flowmeter, wherein, flue gas heat-exchange unit simulation test section and preheating of air test section rear end respectively arrange a pitot tube, pitot tube connects electronic micro-manometer, and between constant temperature water tank ebullator and to be tested section, water loops is provided with spinner-type flowmeter;

The inlet tube and outlet tube of described water bath with thermostatic control is connected with total inlet tube and outlet tube of the heat-exchanging tube bundle to be determined of flue gas heat-exchange unit simulation test section and preheating of air test section respectively, forms recirculated water closed-loop; The air channel regulation gate valve of heat-exchanging tube bundle to be measured is opened, and another air channel regulation gate valve closes;

The mean wind speed of the current stabilization xsect of test section measured by described pitot tube and microbarograph, and before and after flue gas heat-exchange unit simulation test section and preheating of air test section both sides set temperature sensor, with data acquisition unit by time determination test section import and export wind-warm syndrome.

5., for the emulation testing experimental provision of the dynamic response test under different affecting factors, it is characterized in that: comprise centrifugal blower, test section, simulation component and measurement mechanism, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, utilizes flashboard controlled wind speed respectively, to meet the throughput ratio of fume side and air side; Air is first through electrical heating test section on the way, with dry combustion method air electric heating tube by after air heat, enters flue gas heat-exchange unit simulation test section, carries out heat exchange;

On another road, air is first through air temperature modification test section, after air heat or cooling, enter preheating of air test section, carry out heat exchange, together with the air that preheating of air test section is discharged and the flue gas heat-exchange unit simulation test section air of discharging outside discharge chamber, respectively at rectangular duct import and export design temperature and the wind speed measuring point of flue gas heat-exchange unit simulation test section, electrical heating test section, preheating of air test section and air temperature modification test section;

Pipeline is outside equipped with simulation component, simulation component comprises water bath with thermostatic control, expansion tank, the inlet tube and outlet tube of water bath with thermostatic control is connected with the inlet tube and outlet tube of the heat-exchanging tube bundle of air temperature modification test section respectively, forms recirculated water closed-loop, air preheater entering air temperature is regulated; Preheating of air test section and flue gas heat-exchange unit simulation test section, by the mode connecting water pipe of bottom in and top out, form closed cycle loop, and arrange expansion tank in water circulating pump porch, carry out water-supply and pressure-stabling;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

6. as claimed in claim 5 for the emulation testing experimental provision of the dynamic response test under different affecting factors, it is characterized in that: described flue gas heat-exchange unit simulation test section adopts H type finned tube or spiral fin coil along row or stagger arrangement arrangement, preheating of air test section adopts spiral fin coil tube bank along row or stagger arrangement arrangement, pipe Inner eycle water flow, two test sections all adopt the mode of bottom in and top out to carry out connecting water pipe, recirculated water rises at flue gas heat-exchange unit simulation test section endothermic temperature, decline at preheating of air test section exothermic temperature, form closed cycle loop, change flow by ebullator and carry out variable-flow working condition tests, and open type high expansion water box is set carries out level pressure, pipeline section place design temperature measuring point is imported and exported respectively in the header of water up and down of flue gas heat-exchange unit simulation test section and preheating of air test section.

7. as claimed in claim 5 for the emulation testing experimental provision of the dynamic response test under different affecting factors, it is characterized in that: described air temperature modification test section adopts rectangle elliptical fin tube bank arrangement, the water of water bath with thermostatic control is as at Bottomhole pressure, regulate the inlet air temp before preheating of air test section by the water temperature of regulating thermostatic water-bath, and import and export pipeline section place design temperature measuring point in the header of water up and down of test section.

8. as claimed in claim 5 for the emulation testing experimental provision of the dynamic response test under different affecting factors, it is characterized in that: described electrical heating test section adopts dry combustion method air electric heating tube to heat air, adopt high temperature air simulated flue gas, in order to ensure the constant of heated air temperature, additional temperature regulating device; Adopt the temperature-controlling system of intelligent PID temperature controller and SSR solid-state relay, temperature controller, by being arranged on the thermopair measuring point Real-Time Monitoring flue temperature in flue, controls adhesive and the disconnection of solid-state relay on this basis, finally reaches experiment temperature required.

9. for the emulation testing experimental provision that the control characteristic of system reliability is tested, it is characterized in that: comprise centrifugal blower, test section, simulation component, automatic regulating valve and measurement mechanism, wherein:

Described test section comprises electrical heating test section, flue gas heat-exchange unit simulation test section, air temperature modification test section and preheating of air test section;

Centrifugal blower is arranged at air inlet, and the air outlet of centrifugal blower is divided into two-way by pipeline, is provided with electrical heating test section, flue gas heat-exchange unit simulation test section on the way successively;

Separately be disposed with air temperature modification test section and preheating of air test section on the way, preheating of air test section is connected by pipeline with flue gas heat-exchange unit simulation test section;

Pipeline is outside equipped with simulation component, and simulation component comprises expansion tank and water bath with thermostatic control, and expansion tank and the outlet of flue gas heat-exchange unit simulation test section draw arm respectively, and configure automatic regulating valve, access flue gas heat-exchange unit simulation test section porch; Be connected by the inlet tube and outlet tube of the inlet tube and outlet tube of water bath with thermostatic control with air temperature modification test section heat-exchanging tube bundle, form recirculated water closed-loop, water bath with thermostatic control is provided with constant temperature water tank ebullator;

Together with the air that the air of preheating of air test section discharge and flue gas heat-exchange unit simulation test section are discharged outside discharge chamber, the parameter of measurement mechanism measurement test section, and be transferred to data acquisition unit.

10. the emulation testing experimental provision tested for the control characteristic of system reliability as claimed in claim 9, it is characterized in that: described air temperature modification test section connects water bath with thermostatic control, water bath with thermostatic control connects constant temperature water tank ebullator, constant temperature water tank ebullator connects air temperature modification test section, form circulation, and be provided with spinner-type flowmeter between constant temperature water tank ebullator and air temperature modification test section;

The ducting outlet place set temperature sensor of described flue gas heat-exchange unit simulation test section and preheating of air test section, by automatic regulating valve, FEEDBACK CONTROL adjustment is carried out to arm flow, control the ducting outlet temperature constant of flue gas heat-exchange unit simulation test section and preheating of air test section respectively.