CN209028026U - Pipeline type multifunctional gas heat exchanger testing device - Google Patents

Abstract

A pipeline type multifunctional gas heat exchanger testing device comprises an even number of gas circulation flow channels which are annularly arranged, wherein every two gas circulation flow channels form a flow channel module; the gas circulation flow channel is provided with a straight flow channel section and an arc flow channel section, the two straight flow channel sections in the same flow channel module are arranged in parallel, and the straight flow channel sections in different flow channel modules are intersected on the same horizontal plane; and the straight flow channel section is provided with a test port for placing a heat exchanger. The utility model discloses can carry out tests such as heat transfer performance test, resistance capability test to following current formula gas heat exchanger, counter-flow gas heat exchanger and cross-flow gas heat exchanger etc. it has simple structure reasonable, the function is various, high-efficient energy-conservation, commonality and characteristics that the practicality is strong.

Description

A kind of duct type multifunctional gas heat exchanger test device

Technical field

The utility model relates to a kind of heat exchanger test device, in particular to a kind of duct type multifunctional gas heat exchanger is surveyed Trial assembly is set.

Background technique

Heat exchanger is use energy equipment, energy conversion and energy transportation equipment important in modern industry, numerous It is played an important role in industrial circle, and gas-to-gas heat exchanger is type that is therein important and being widely used, in HVAC sky The industrial circles such as tune, exhaust-gas treatment, waste heat recycling play an indispensable role, however are generally required in industry according to real need The structure and area for seeking heat exchanging device carry out particular build, it is therefore desirable to test the thermal performance of the heat exchanger of building. Existing gas heat exchanger test device has the disadvantage that structure is complicated, has a single function, experimentation energy waste is tighter Weight.Therefore, how to construct a structure it is simple, efficiently, space hold it is small and it is energy-efficient can be to the heat of multiple types heat exchanger The comprehensive test device meaning that power performance is tested is important, while being the major issue that those skilled in the art need to solve.

Chinese patent literature CN105593663A discloses a kind of heat exchanger test device on May 18th, 2016, and It specifically discloses: including: test heat exchanger, the test heat exchanger, which has, to be configured to receive the fluid from the heat exchanger First entrance；For the fluid to the first outlet of the heat exchanger；It is configured to receive the second entrance of recirculated fluid；With And the second outlet for the recirculated fluid, the second outlet and the second entrance constitute recirculation circuit, and The recirculated fluid and the fluid from the heat exchanger are fluid isolations；In the recirculation circuit with it is described The pump that test heat exchanger is connected；The heater being connected in the recirculation circuit with the test heat exchanger, it is described to add Hot device is configured to heat the recirculated fluid to adjust the condition in the test heat exchanger；And chock, wherein the survey Examination heat exchanger, the pump and the heater are arranged on the chock；The test heat exchanger includes shell, at least one pipe exists In the shell；The flowing at least one pipe described in the test heat exchanger of the fluid of the heat exchanger, and institute Recirculated fluid is stated in the outer flowing of at least one pipe；The recirculated fluid is at least one described in the test heat exchanger Flowing in a pipe, and at least one pipe described in the test heat exchanger of the fluid from the heat exchanger outflows It is dynamic.That there are above structures is complicated for the test device, has a single function, the problems such as experimentation energy waste is more serious, it is therefore desirable to It is further improved.

Utility model content

The purpose of the utility model is to provide a kind of simple and reasonable, vdiverse in function, energy-efficient, versatility and realities With the strong duct type multifunctional gas heat exchanger test device of property, to overcome shortcoming in the prior art.

A kind of duct type multifunctional gas heat exchanger test device designed by this purpose, it is characterised in that: including even number The gas circulatory flow of a annular setting, gas circulatory flow form a runner mould group two-by-two；It is set on the gas circulatory flow There are straight channel section and arced flow path section, two straight channel sections in same runner mould group are mutually juxtaposed setting, in different runner mould groups Each straight channel section intersect in same level；The test mouth for placing heat exchanger is provided in the straight channel section.

Homogenizing plate, flow are disposed with along gas flow direction as starting point to test mouth on the gas circulatory flow Meter, air-introduced machine, surface air cooler, humidifier and heating rod.

The fresh wind port of gas circulatory flow inner cavity, fresh wind port and place gas where being equipped with connection on the inside of the arced flow path section There is acute angle a in body circulation runner between the flow direction of gas, fresh wind port is between air-introduced machine and surface air cooler.

It is provided with several thermometers and micromanometer on the gas circulatory flow, between homogenizing plate and flowmeter, fresh air The thermometer and micromanometer are respectively arranged between mouth and surface air cooler and between heating rod and test mouth.

It is connected with each other between the straight channel section and arced flow path section by telescopic hose, makes the size for testing mouth can It adjusts, testing opening and closing on mouth has flapper.

The test mouth intercepts in the middle part of straight channel section, so that straight channel section is divided into two sections, the interception end in straight channel section has The test port being connect with test mouth.

The test mouth needs to connect and match with corresponding test port in more than two gas circulatory flows according to test It closes and uses.

Further include the adjustable support for being set to bottom, the adjustable support arcuately arrange by flow channel section, and with crossbeam without Stabilizer blade form is supported straight channel section.

The gas circulatory flow includes respectively in the first gas circulatory flow of semicircular ring setting, second gas recycle stream Road, third gas circulatory flow and the 4th gas circulatory flow；First gas circulatory flow and second gas circulatory flow are mutually not It is connected to and collectively forms the first circular flow channel mould group；Third gas circulatory flow is not connected to mutually and is total to the 4th gas circulatory flow With the second circular flow channel mould group is constituted, the first circular flow channel mould group is located above the second circular flow channel mould group.

Straight channel section in the first circular flow channel mould group is with the straight channel section in the second circular flow channel mould group same It is in cross on horizontal plane.

The utility model overcome existing general gas heat exchanger test device it is existing structure is complicated, have a single function, And the more serious equal some problems of experimentation energy waste.Compared with prior art, this duct type multifunctional gas heat exchanger Test device can carry out heat-exchange performance to downflow type gas heat exchanger, counterflow gas heat exchanger and cross-current type gas heat exchanger etc. The tests such as energy test, resistance performance test.The utility model have it is following the utility model has the advantages that 1. overall structure advantages of simple, so having Imitate simplify test device overall structure, and then when space hold it is small；2. in each gas circulatory flow, air by adjustment equipment into After row state processing and test heat exchanger heat exchange, remains in gas circulatory flow and be recycled, since air has led to Cross equipment carry out status adjustment, air condition close to test preset requirement, therefore can effectively save the time of air-treatment with And the consumed energy, achieve the effect that energy-saving and emission-reduction and energy-efficient；3. can thermal performance to multiple types heat exchanger into Row test experiments, test function scalability, versatility and practical.

Detailed description of the invention

Fig. 1 is the overall top view of duct type multifunctional gas heat exchanger test device in an embodiment of the present invention；

Fig. 2 is that duct type multifunctional gas heat exchanger test device carries out down-stream heat exchanger in an embodiment of the present invention The top view of test loop；

Fig. 3 is that duct type multifunctional gas heat exchanger test device carries out contra-flow heat exchanger in an embodiment of the present invention The top view of test loop；

Fig. 4 is that duct type multifunctional gas heat exchanger test device carries out cross-flow heat exchanger in an embodiment of the present invention The top view of test loop；

Fig. 5 is the main view of duct type multifunctional gas heat exchanger test device in an embodiment of the present invention.

Specific embodiment

The utility model is further described with reference to the accompanying drawings and embodiments.

Referring to Fig. 1-Fig. 5, this duct type multifunctional gas heat exchanger test device, the gas including the setting of even number annular Circulatory flow, gas circulatory flow form a runner mould group two-by-two；Specifically,.Gas circulatory flow is equipped with straight channel section 112 With arced flow path section 111, two straight channel sections 112 in same runner mould group are mutually juxtaposed setting, each in different runner mould groups Straight channel section 112 intersects in same level；The test mouth 11 for placing heat exchanger is provided in straight channel section 112.Tool Body is, gas circulatory flow includes respectively in the first gas circulatory flow 1 of semicircular ring setting, second gas circulatory flow 2, the Three gas circulatory flows 3 and the 4th gas circulatory flow 4；First gas circulatory flow 1 does not connect mutually with second gas circulatory flow 2 Lead to and collectively forms the first circular flow channel mould group；Third gas circulatory flow 3 is not mutually connected to and is total to the 4th gas circulatory flow 4 With the second circular flow channel mould group is constituted, the first circular flow channel mould group is located above the second circular flow channel mould group；Four gas circulations Runner can be used in conjunction with each other two-by-two；In straight channel section 112 and the second circular flow channel mould group in first circular flow channel mould group Straight channel section 112 in same level be in cross.By being used in conjunction with each other two-by-two to four gas circulatory flows, Make duct type multifunctional gas heat exchanger test device can be to downflow type gas heat exchanger, counterflow gas heat exchanger and cross-flow Formula gas heat exchanger etc. carries out the tests such as heat exchange property test, resistance performance test.

Homogenizing plate 12, flowmeter are disposed with along gas flow direction on gas circulatory flow to test mouth 11 as starting point 14, air-introduced machine 16, surface air cooler 18, humidifier 19 and heating rod 110.

The fresh wind port 17 of gas circulatory flow inner cavity, fresh wind port 17 and institute where being equipped with connection on the inside of arced flow path section 111 There are acute angle a, acute angle a to be advisable in gas circulatory flow with 15o-60o between the flow direction of gas；Fresh wind port 17 is located at air inducing Between machine 16 and surface air cooler 18.Air where the setting of fresh wind port 17 can supplement in gas circulatory flow, to eliminate place gas The body circulation runner pipe internal and external pressure difference to be formed since air flows.

Several thermometers (not indicating in figure) and micromanometer 13, homogenizing plate 12 and flow are provided on gas circulatory flow Thermometer and micro- is respectively arranged between meter 14, between fresh wind port 17 and surface air cooler 18 and between heating rod 110 and test mouth 11 Pressure gauge 13.

It is connected with each other between straight channel section 112 and arced flow path section 111 by telescopic hose 15, makes to test mouth 11 Adjustable, to meet different testing requirements, the adjustable extent of test 11 size of mouth is advisable with 0-3m；It is opened on test mouth 11 Flapper (not indicating in figure) is closed, to close heat exchanger to be tested in test mouth 11, while by not used test Mouth 11 is closed.

It tests mouth 11 to intercept in 112 middle part of straight channel section, so that straight channel section 112 is divided into two sections, blocking in straight channel section 112 Cutting end has the test port 115 connecting with test mouth 11.

Test mouth 11 needs to connect and match with corresponding test port 115 in more than two gas circulatory flows according to test It closes and uses, measuring system carries out start-up and shut-down control to the equipment on four gas circulatory flows automatically by electric-control system.

Further include the adjustable support 5 for being set to bottom, duct type multifunctional gas heat exchanger is made by adjustable support 5 The whole height of test device is adjustable；The adjustable support 5 arcuately arrange by flow channel section 111, and in the form of crossbeam is without stabilizer blade pair Straight channel section 112 is supported, and using and adjusting in favor of heat exchanger test mouth 11, the height of adjustable support 5 can be flexible It adjusts；The height adjustable extent of adjustable support 5 is advisable with 1-2.5m.

Test philosophy

According to testing requirement, measuring system automatically opens the equipment on four gas circulatory flows by electric-control system Stop controlling, and closed test mouth 11 and the not used test mouth 11 of closing needed for constructing by flapper, thus be into Row downflow type gas heat exchanger, counterflow gas heat exchanger and the test of cross-current type gas heat exchanger heat exchange property, resistance performance Test is ready:

Downflow type gas heat exchanger circulation: referring to fig. 2, there is the identical gas in two bursts of flow directions in downflow type gas heat exchanger Body exchanges heat, and when testing the heat exchanger, selects by first gas circulatory flow 1 and 2 groups of second gas circulatory flow At the first circular flow channel mould group tested；Downflow type gas heat exchanger is installed into first gas circulatory flow 1 and second In the test mouth 11 of gas circulatory flow 2, while using flapper to third gas circulatory flow 3 and the 4th gas recycle stream The test mouth 11 in road 4 is closed, and the instrument of two gas circulatory flows in the first circular flow channel mould group is regulated and controled according to test condition Device and equipment, air enter first gas circulatory flow 1 and second gas circulatory flow 2 from corresponding fresh wind port 17 respectively, and Air mass flow is adjusted by air-introduced machine 16, air is carried out after entering corresponding gas circulatory flow by thermometer and micromanometer 13 Temperature, humidity and pressure parameter collecting, and by the calculating and feedback control order of automatic control system, via surface air cooler 18, The temperature and humidity of air, is adjusted to the state of test macro preset requirement by humidifier 19 and heating rod 110；Then, it surveys Try 11 entrance of mouth thermometer and micromanometer 13 carry out air themperature, humidity and pressure state acquisition, subsequent air into Enter to be mounted on the downflow type gas heat exchanger in test mouth 11 to exchange heat, the air after heat exchange, which enters current equalizer 12, to carry out sufficiently Mixing, and temperature, humidity and pressure parameter collecting after being exchanged heat by thermometer and micromanometer 13, last air flow through Flowmeter 14 carry out air-flow measurement, by pressure sensor measure downflow type gas heat exchanger resistance performance, by with Lower formula determines heat exchange amount Q:

Q=C_p,am_aΔT_a

Counterflow gas heat exchanger circulation: referring to Fig. 3, two plumes move contrary gas in counterflow gas heat exchanger Body exchanges heat, and when testing the heat exchanger, third gas circulatory flow 3 and the 4th gas circulatory flow 4 is selected to carry out Counterflow gas heat exchanger, is installed into the test mouth of third gas circulatory flow 3 and the 4th gas circulatory flow 4 by test first In 11, while the test mouth 11 in first gas circulatory flow 1 and second gas circulatory flow 2 is sealed using flapper It closes, the instrument and equipment of two test loop runners in the second circular flow channel mould group is regulated and controled according to test condition, according to downflow type The air conditioning and measurement method of gas heat exchanger circulation, measurement obtain the air mass flow of cyclic process, heat exchanger resistance performance And heat transfer property.

Cross-current type gas heat exchanger circulation: referring to fig. 4, two bursts of flow directions hand in cross-current type gas heat exchanger in cross Wrong gas exchanges heat, and has the cooperation of following circulatory flow when testing the heat exchanger: 1. by first gas recycle stream Test loop is set up in road 1 and the cooperation of third gas circulatory flow 3, or first gas circulatory flow 1 and the 4th gas are recycled Test loop is set up in the cooperation of runner 4, or second gas circulatory flow 2 and the cooperation of third gas circulatory flow 3 are set up test Circulation, or second gas circulatory flow 2 and the cooperation of the 4th gas circulatory flow 4 are set up into test loop；The present embodiment is with The cooperation of one gas circulatory flow 1 and the 4th gas circulatory flow 4 is illustrated: being first installed into cross-current type gas heat exchanger In the test mouth 11 of first gas circulatory flow 1 and the 4th gas circulatory flow 4, while second gas is followed using flapper The test mouth 11 of circulation road 2 and third gas circulatory flow 3 is closed, and regulates and controls first gas circulatory flow according to test condition 1 and the 4th instrument and equipment in gas circulatory flow 4, air conditioning and measurement side according to downflow type gas heat exchanger circulation Method, measurement obtain the air mass flow of cyclic process, heat exchanger resistance performance and heat transfer property.

The above-mentioned preferred embodiment for the utility model, has been shown and described the basic principles and main features of the utility model And the advantages of the utility model.Those skilled in the art should be recognized that the present utility model is not limited to the above embodiments, on It states and only illustrates the principles of the present invention described in embodiment and specification, do not departing from the spirit and scope of the utility model Under the premise of the utility model also has various changes and improvements, these changes and improvements both fall within claimed it is practical new Within the scope of type.The utility model requires protection scope is defined by appended claims and its equivalent.

Claims (10)

1. a kind of duct type multifunctional gas heat exchanger test device, it is characterised in that: the gas including the setting of even number annular Circulatory flow, gas circulatory flow form a runner mould group two-by-two；The gas circulatory flow be equipped with straight channel section (112) and Arced flow path section (111), two straight channel sections (112) in same runner mould group are mutually juxtaposed setting, in different runner mould groups Each straight channel section (112) is intersected in same level；The survey for placing heat exchanger is provided on the straight channel section (112) It tries mouth (11).

2. duct type multifunctional gas heat exchanger test device according to claim 1, it is characterised in that: the gas circulation Homogenizing plate (12), flowmeter (14), air-introduced machine are disposed with along gas flow direction on runner to test mouth (11) as starting point (16), surface air cooler (18), humidifier (19) and heating rod (110).

3. duct type multifunctional gas heat exchanger test device according to claim 2, it is characterised in that: the arced flow path The fresh wind port (17) of gas circulatory flow inner cavity where being equipped with connection on the inside of section (111), fresh wind port (17) and place gas recycle There is acute angle a in runner between the flow direction of gas, fresh wind port (17) is located between air-introduced machine (16) and surface air cooler (18).

4. duct type multifunctional gas heat exchanger test device according to claim 3, it is characterised in that: the gas circulation Several thermometers and micromanometer (13) are provided on runner, between homogenizing plate (12) and flowmeter (14), fresh wind port (17) with The thermometer and micromanometer are respectively arranged between surface air cooler (18) and between heating rod (110) and test mouth (11) (13)。

5. duct type multifunctional gas heat exchanger test device according to claim 4, it is characterised in that: the straight channel section (112) it is connected with each other between arced flow path section (111) by telescopic hose (15), makes the size for testing mouth (11) can It adjusts, opening and closing has flapper in test mouth (11).

6. duct type multifunctional gas heat exchanger test device according to claim 5, it is characterised in that: the test mouth (11) it intercepts in the middle part of straight channel section (112), so that straight channel section (112) is divided into two sections, the interception end in straight channel section (112) has The test port (115) being connect with test mouth (11).

7. duct type multifunctional gas heat exchanger test device according to claim 6, it is characterised in that: the test mouth (11) it needs to connect and be used cooperatively with corresponding test port (115) in more than two gas circulatory flows according to test.

8. duct type multifunctional gas heat exchanger test device according to claim 7, it is characterised in that: further include being set to The adjustable support (5) of bottom, the adjustable support (5) arcuately arrange by flow channel section (111), and in the form of crossbeam is without stabilizer blade pair Straight channel section (112) is supported.

9. any one of -8 duct type multifunctional gas heat exchanger test device according to claim 1, it is characterised in that: described Gas circulatory flow includes respectively in the first gas circulatory flow (1) of semicircular ring setting, second gas circulatory flow (2), the Three gas circulatory flows (3) and the 4th gas circulatory flow (4)；First gas circulatory flow (1) and second gas circulatory flow (2) it is not mutually connected to and collectively forms the first circular flow channel mould group；Third gas circulatory flow (3) and the 4th gas circulatory flow (4) it is not mutually connected to and collectively forms the second circular flow channel mould group, the first circular flow channel mould group is located in the second circular flow channel mould group Side.

10. duct type multifunctional gas heat exchanger test device according to claim 9, it is characterised in that: first circle The straight channel section (112) in straight channel section (112) and the second circular flow channel mould group in shape runner mould group is in same level In cross.