CN202453208U - Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger - Google Patents
Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger Download PDFInfo
- Publication number
- CN202453208U CN202453208U CN2012200951003U CN201220095100U CN202453208U CN 202453208 U CN202453208 U CN 202453208U CN 2012200951003 U CN2012200951003 U CN 2012200951003U CN 201220095100 U CN201220095100 U CN 201220095100U CN 202453208 U CN202453208 U CN 202453208U
- Authority
- CN
- China
- Prior art keywords
- heat pipe
- heat
- lower half
- contained
- tube
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Testing Resistance To Weather, Investigating Materials By Mechanical Methods (AREA)
Abstract
The utility model relates to a rotatable type experimental apparatus for a high-humidity dusty gas heat exchanger, which comprises a cold end fan, a heat tube, a test hole, a rotating wheel, an electric butterfly valve A, a gate, a liming port, a flute-shaped pipe flow rate and flow measurement hole A, an electric butterfly valve B, a spiral limer, a heat end fan, an electric heating device, a humidifier, a workbench, a control cabinet, a condensation water discharge port, an ash bucket, a bag dust removing device, and a flute-shaped pipe flow rate and flow measurement hole B. The rotatable type experimental apparatus has the advantages that (1) the temperature distribution of the wall surface of the heat tube, the air velocity field and pressure field can be accurately tested, and data basis is provided for researching the heat exchange performance of the heat tube under different working conditions; (2) the humidifying and liming devices are arranged, the operation is stable and reliable, and the dust content in air, temperature and humidity and other parameters can be accurately adjusted; and (3) the heat tube can be rotated by a certain angle under the condition that the middle partition is hardly moved, so that the influence of different inclination angles of the heat tube on the heat exchange performance and the pipe wall dust accumulation condition can be researched.
Description
Technical field
The utility model relates to a kind of rotary type high humidity dusty gas heat interchanger experimental provision, belong to high humidity dusty gas heat interchanger experimental provision technical field.
Background technology
The evaporator section of conventional heat pipe experiment table and condensation segment are to separate fully through the median septum that seals, and hot and cold air direct contact can not take place.Median septum is fixed, and the angle of heat pipe can't change.
Summary of the invention
What the utility model proposed is a kind of rotary type high humidity dusty gas heat interchanger experimental provision; Its purpose is intended to overcome the above-mentioned defective of existing in prior technology; Can under the condition that median septum does not move basically, make heat pipe do the rotation of certain angle, so just can study the influence of different heat pipe inclination angle heat exchanging performance and tube wall dust stratification situation.
The technical solution of the utility model: it is characterized in that the cold junction blower fan is threaded with experimental provision first half experimental channel; Instrument connection is positioned at the heat pipe porch, and temperature, humidity and air velocity transducer insert in the instrument connection, and swiveling wheel is connected with heat pipe through connecting rod; Heat pipe rotates along 0-45 degree angle through swiveling wheel; The A electric butterfly valve is contained in the first half of heat pipe experimental section, has on the flashboard to add the ash mouth, and A bourdon's tube velocity measurement flow-measurement orifice is contained in the heat pipe first half; The B electric butterfly valve is contained in the Lower Half of heat pipe experimental section; Spiral adds grey device and adds ash mouthful corresponding setting, and the hot junction blower fan is located at the Lower Half of heat pipe experimental section, and the hot junction blower fan is connected with the pipeline thread of the Lower Half of heat pipe experimental section; Electric heater unit is installed in the pipeline of Lower Half of heat pipe experimental section; Humidifier is located on the pipeline of Lower Half of heat pipe experimental section; Switch board is contained on the worktable; The condensate floss hole is contained under the hot tube heat exchanger, and the inlet of ash bucket joins with the outlet of bag-type dust collector is corresponding, and B bourdon's tube flow rate measured hole is contained in the Lower Half of heat pipe.
The advantage of the utility model: 1) can make things convenient for the Temperature Distribution of opposite heat tube wall exactly, air velocity field, pressure field are tested, for the heat pipe heat exchanging performance of research under different operating modes provides basic data.2) be furnished with humidification, add apparatus for ash, working stability is reliable, can carry out regulating and controlling to parameters such as dust content of air, humitures accurately.3) this device can make heat pipe do the rotation of certain angle under the condition that median septum does not move basically, so just can study the influence of different heat pipe inclination angle heat exchanging performance and tube wall dust stratification situation.
Description of drawings
Accompanying drawing 1 is the structural representation of rotary type high humidity dusty gas heat interchanger experimental provision.
Among the figure 1 is the cold junction blower fan, the 2nd, and temperature, humidity, pressure test hole, the 3rd, heat pipe, the 4th, swiveling wheel, the 5th, A electric butterfly valve; The 6th, flashboard, the 7th, add the ash mouth, the 8th, A bourdon's tube velocity measurement flow-measurement orifice, the 9th, the B electric butterfly valve, the 10th, spiral adds grey machine; The 11st, hot junction blower fan, the 12nd, electric heater unit, the 13rd, humidifier, the 14th, worktable, the 15th, switch board; The 16th, condensate floss hole, the 17th, ash bucket, the 18th, bag-type dust collector, the 19th, B bourdon's tube flow rate measured hole.
Embodiment
The contrast accompanying drawing, its structure is that cold junction blower fan 1 is threaded with first half experimental channel; Instrument connection 2 is positioned at heat pipe 3 porch; Temperature, humidity and air velocity transducer insert in the instrument connection 2, and described heat pipe 3 is made up of 7 heat pipes, and is fixed on the flexible median septum; Being divided into two halves up and down by median septum, is the main device that carries out cold and hot air heat exchange; Swiveling wheel 4 is connected with heat pipe 3 through connecting rod; Heat pipe rotates along 0-45 degree angle through swiveling wheel; The A electric butterfly valve 5 that is used for the control air flow is contained in the first half of heat pipe 3 experimental sections; Be used to control be useful on to hot-air on the flashboard 6 that adds the ash amount and add some dust; With the simulated field operating mode add ash mouthfuls 7, the A bourdon's tube velocity measurement flow-measurement orifice 8 that is used to measure the air mass flow of hot tube heat exchanger first half outlet is contained in heat pipe 3 first halves; The B electric butterfly valve 9 of the flow of control heat pipe experimental section Lower Half hot-air is contained in the Lower Half of heat pipe 3 experimental sections; Spiral adds grey device 10 and adds ash mouthful 7 corresponding settings, and it is screw feeding devices that spiral adds grey device 10, drives with micro-machine in pipeline, to add ash; Hot junction blower fan 11 is located at the Lower Half of heat pipe 3 experimental sections; Be used to drive room air and get into the Lower Half experimental channel; Again through the lower semisection of superheater tube 3, hot junction blower fan 11 is connected with the pipeline thread of the Lower Half of heat pipe 3 experimental sections behind the room air process electric heater of entering Lower Half experimental channel; Electric heater unit 12 is installed in the pipeline of Lower Half of heat pipe 3 experimental sections, is used to heat the air that Lower Half gets into the heat pipe experimental section; Humidifier 13 is located on the pipeline of Lower Half of heat pipe 3 experimental sections, is used for spraying into water vapour to the Lower Half air, regulates heat pipe lower semisection hot-air humidity; Worktable 14 is installed Displaying Meter and control knob above; Switch board 15 is contained on the worktable, and Displaying Meters such as air temperature, humidity, air quantity, heating voltage electric current are housed above; Condensate floss hole 16 is contained under the hot tube heat exchanger, is used to discharge the condensate of experimentation heat pipe wall; Ash bucket 17 is used to discharge the inner dust of fly-ash separator; The inlet of ash bucket 17 joins with the outlet of bag-type dust collector 18 is corresponding, and bag-type dust collector 18 is used to remove the dust of heat interchanger Lower Half outlet air; The B bourdon's tube flow rate measured hole 19 that is used to measure the air mass flow of hot tube heat exchanger Lower Half outlet is contained in the Lower Half of heat pipe 3.
During work, cold and hot air under the drive of blower fan, flow through the respectively condensation segment and the evaporator section generation exchange heat of hot tube heat exchanger.The working temperature that after the air of hot junction blower fan output is by the electric heater heating, the reaches setting hot tube heat exchanger Lower Half of flowing through, heating also starts heat pipe.To the hot tube heat exchanger first half, steam condensation and through heat pipe condenser section fin heating cold junction air flows to the heat pipe Lower Half along tube wall after the steam condensation with heat delivered for the boiling of being heated of inside heat pipe working medium, its steam.So heat transfer process is accomplished in circulation.
Experiment content
:
1) electric heater control air temperature is adopted in the adjusting of hot-air operating mode, and heating current voltage is adjustable, control hot tube heat exchanger evaporator section intake air temperature; Adopt humidifier toward the interior water spray of pipeline steam humidification, control evaporator section intake air humidity; Adopt air door flashboard control hot junction air wind speed air quantity; Adopt the adjustable speed spiral to add grey device control air dustiness.Come the operating mode of simulated field low temperature and high relative humidity dust-contained airflow through above method;
2) heat pipe wall surface temperature field, the test of air velocity field adopt PT100 thermal resistance or K type thermopair as temperature probe.On the experiment heat pipe, measure the heat pipe wall surface temperature along the thermopair (thermal resistance) of heat pipe length direction configuration some and distribute.Vapor (steam) temperature in the heat pipe is measured by 2 to 3 pairs of thermopairs (thermal resistance) of being close to heat pipe adiabatic section outer wall.Open several measured holes on heat pipe experimental section top, but the miniature Pitot tube and the piezometric tube of free lifting inserted the wind speed of measuring the heat pipe condenser section back side, the distribution of static pressure;
3) Pitot tube wind gage measuring wind air quantity is selected in air parameter test for use, selects to facing the wind mouthful cross section that 2D (dust diameter) locates as the cross section of measuring inlet velocity apart from hot tube heat exchanger.Adopt PT100 thermal resistance or K type thermocouple assay air themperature, comprise heat pipe evaporator section temperature in, heat pipe evaporator section outlet temperature, heat pipe condenser section temperature in, heat pipe condenser section outlet temperature.Selection exports the 10cm place as the air themperature testing section apart from heat pipe evaporator section inlet, heat pipe evaporator section outlet, heat pipe condenser section inlet, heat pipe condenser section.Adopt testo435 hygrometer Measurement of Air humidity, get apart from hot tube heat exchanger evaporation, 10cm place, condensation segment entry and exit as the air humidity testing section.
Claims (2)
1. rotary type high humidity dusty gas heat interchanger experimental provision is characterized in that the cold junction blower fan is threaded with experimental provision first half experimental channel; Instrument connection is positioned at the heat pipe porch, and temperature, humidity and air velocity transducer insert in the instrument connection, and swiveling wheel is connected with heat pipe through connecting rod; Heat pipe rotates along 0-45 degree angle; The A electric butterfly valve is contained in the first half of heat pipe experimental section, has on the flashboard to add the ash mouth, and A bourdon's tube velocity measurement flow-measurement orifice is contained in the heat pipe first half; The B electric butterfly valve is contained in the Lower Half of heat pipe experimental section; Spiral adds grey device and adds ash mouthful corresponding setting, and the hot junction blower fan is located at the Lower Half of heat pipe experimental section, and the hot junction blower fan is connected with the pipeline thread of the Lower Half of heat pipe experimental section; Electric heater unit is installed in the pipeline of Lower Half of heat pipe experimental section; Humidifier is located on the pipeline of Lower Half of heat pipe experimental section; Switch board is contained on the worktable; The condensate floss hole is contained under the hot tube heat exchanger, and the inlet of ash bucket joins with the outlet of bag-type dust collector is corresponding, and B bourdon's tube flow rate measured hole is contained in the Lower Half of heat pipe.
2. rotary type high humidity dusty gas heat interchanger experimental provision according to claim 1; It is characterized in that described heat pipe is made up of 7 heat pipes; And be fixed on the flexible median septum, heat pipe is divided into two halves up and down by median septum, carries out cold and hot air heat exchange.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012200951003U CN202453208U (en) | 2012-03-14 | 2012-03-14 | Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012200951003U CN202453208U (en) | 2012-03-14 | 2012-03-14 | Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202453208U true CN202453208U (en) | 2012-09-26 |
Family
ID=46869063
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012200951003U Expired - Fee Related CN202453208U (en) | 2012-03-14 | 2012-03-14 | Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN202453208U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102589921A (en) * | 2012-03-14 | 2012-07-18 | 南京林业大学 | Rotatable experimental apparatus for low-temperature high-humidity gas-gas heat exchanger |
| CN103969073A (en) * | 2014-05-20 | 2014-08-06 | 东北电力大学 | Flue gas and air simulated heat exchange device |
-
2012
- 2012-03-14 CN CN2012200951003U patent/CN202453208U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102589921A (en) * | 2012-03-14 | 2012-07-18 | 南京林业大学 | Rotatable experimental apparatus for low-temperature high-humidity gas-gas heat exchanger |
| CN102589921B (en) * | 2012-03-14 | 2014-04-02 | 南京林业大学 | Rotatable experimental apparatus for low-temperature high-humidity gas-gas heat exchanger |
| CN103969073A (en) * | 2014-05-20 | 2014-08-06 | 东北电力大学 | Flue gas and air simulated heat exchange device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102589921B (en) | Rotatable experimental apparatus for low-temperature high-humidity gas-gas heat exchanger | |
| CN102937464B (en) | Performance detection testing system of mine air returning heat exchanger and using method thereof | |
| CN103592142A (en) | System for testing heat transfer and resistance characteristics of large-size generating equipment heat exchanger | |
| CN203758765U (en) | Test apparatus for the performance of a refrigerating and air-conditioning system | |
| CN204807295U (en) | A wind tunnel experiment device for different plate -fin heat exchanger plain fin | |
| CN107063735A (en) | A kind of performance test experiment table of micro-channel evaporator | |
| CN202453208U (en) | Rotatable type experimental apparatus for high-humidity dusty gas heat exchanger | |
| CN104298888B (en) | Fan coil cold measuring method based on flow-cold relation model | |
| CN107817267A (en) | The visual testing platform that a kind of porous media hydraulic characteristic(s) and caloic exchange | |
| CN203479550U (en) | System suitable for testing heat transfer and resistance characteristics of heat exchanger of large-scale generating equipment | |
| CN207502194U (en) | A kind of condensed water discharging performance test experimental bed of micro-channel evaporator | |
| Fiorentino et al. | Sensitivity analysis of evaporative condensers performance using an experimental approach | |
| CN202928612U (en) | Performance detection system of mine return air heat exchanger | |
| CN105784926B (en) | High wet gas current water capacity measurement apparatus and method | |
| CN107702935A (en) | A kind of condensed water discharging performance test experimental bed of micro-channel evaporator | |
| CN104848884B (en) | Device and method for testing sensor performance of gas flow rate, temperature and humidity | |
| CN107246975A (en) | A kind of flow refrigerator with adjustable heat exchanger performance test system | |
| CN201397263Y (en) | Fixed bed type tobacco heat-moisture treatment device with convection heat transfer manner | |
| CN110108595A (en) | A kind of gas-vapour mixing method humidity detection device | |
| CN203324212U (en) | Device for determining engineering acid dew point of boiler flue gas | |
| CN103364438B (en) | Method for determining acid dew point of boiler flue gas engineering | |
| Mehta et al. | Investigations on a porous rotating media liquid-air contacting device suitable for various alternative cooling technologies | |
| CN202947888U (en) | Novel wind air processing unit performance test device | |
| CN205540354U (en) | Solar energy air heat collector thermal behavior detects wet device of air accuse control by temperature change of usefulness | |
| Moghaddam et al. | Evaluating the steady-state performance of a small-scale single-panel liquid-to-air membrane energy exchanger (LAMEE) under summer AHRI test condition |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120926 Termination date: 20140314 |