CN203323595U - Baffling and efficient heat exchanger, heat exchanger set and heat exchanger casing - Google Patents

Abstract

The utility model discloses a baffling and efficient heat exchanger, which includes a waved baffling heat exchanger casing, an ultrasound device as well as a heat exchange efficiency real-time monitoring control system preferably, wherein heat exchange medium flows in the heat exchanger casing in a baffling manner; the ultrasound device includes an ultrasonic generation mechanism and an ultrasonic vibration transmission mechanism that are mutually connected; the ultrasonic vibration transmission mechanism is arranged in the waved baffling heat exchanger casing; the heat exchange efficiency real-time monitoring control system is used for monitoring temperature and pressure at an outlet/inlet of the heat exchanger, calculating to obtain the heat exchange efficiency, and adjusting the flow rate of the heat exchanger as per the heat exchange efficiency. The utility model further discloses a baffling and efficient heat exchanger set and a waved baffling heat exchanger casing at the same time. According to the utility model, the baffling heat exchanger and the ultrasound technology are combined to achieve the purposes of scale prevention and removing, avoiding corrosion of the metal casing and increasing the heat exchange efficiency; the heat exchange efficiency real-time monitoring control system has the functions of real-time recording and displaying functions, so that reliable data for production running is provided.

Description

Baffling high-efficiency heat exchanger, heat exchanger set and heat exchanger shell

Technical field

The utility model relates to the heat exchanger technical field, particularly a kind of heat exchanger of the baffling high-efficiency in conjunction with ultrasonic technology, heat exchanger set and heat exchanger shell.

Background technology

Heat exchanger has been widely used in modern industry and plant equipment as the basic equipment of heat conduction and exchange, due to reasons such as water quality, environments for use, all there is scale problems in current most heat exchanger, the fouling process is the process that scale forms on heating surface, to direct heat exchanger, it is the process of the accumulation of boundary attachment.Usually fouling is divided into 6 types: (1) separates out fouling: CaCO ₃, CaSO ₄And MgSiO ₃Because reducing, hot surface solubility separates out deposition with salt etc. negative dissolubility salting liquid; (2) particulate fouling: the solia particle be suspended in liquid deposits because of Action of Gravity Field; (3) chemical reaction fouling: under high temperature some organic matter or inorganic matter react, polymerization or coking and the deposition of solid that produces; (4) corrosion and scaling: heat exchanger itself plays chemical change, and its product invests on surface as dirt; (5) biological fouling: undressed seawater, river or lake water, the deposition that algae wherein etc. produce; (6) solidify fouling: in certain neat liquid or liquid mixture, a certain component is crossed cold and curing deposition because of heat-transfer surface.In fact fouling process may be the comprehensive function of above-mentioned several types.Because dirt has higher thermal resistance, total heat transfer efficiency is reduced, and because it has reduced flow area, pump power is increased, to the occasion of augmentation of heat transfer, if can not effectively control its formation, many augmentation of heat transfer measures will become meaningless.

The energy waste and the economic loss that because of fouling, cause are quite serious.Dirt deposited gradually along with the time, and the consumption that can bring has: (1) is because fouling has reduced rate of heat transfer, if solve by the way that increases heat transfer area, undoubtedly by the increasing device size; In addition, some is required to the quantity-produced occasion, also need to be equipped with the same model heat exchanger standby; (2), to Korrosionsmedium, need by precious materials such as titanium, stainless steels; (3) because of fouling, seriously stop transport, may cause product quality to descend or stop transport during production loss; (4) fouling is cleaned needs various cleaning equipments, also has the consumption of chemical agent simultaneously; (5) increased heat transmission resistance after fouling, if increase driving force of heat transfer by the raising temperature difference, must increase again ability consumption, dwindled in addition actual internal area, pressure drop is increased, pump power increases; (6) periodic maintenance brings expending of the aspects such as equipment and labour.In a word, the heat exchanger fouling is the problem of a very complex, and its mechanism relates to multi-door subject, is still so far a problem not yet thoroughly solved.

The utility model content

For effectively solving the scale problems of heat exchanger, the break the normal procedure Configuration Design of heat exchanger of the utility model, design a kind of baffling structure heat exchanger, heat exchanger set and heat exchanger shell, and it is combined with the ultrasound wave descaling technology, can reach and prevent that dirt, silt, iron rust are attached to the purpose on the heat exchanger heat-transfer surface; Further optimally, the utility model has also increased the monitoring system of Real-Time Monitoring heat exchanger operation, and real time record and demonstration heat exchange efficiency and ruuning situation, for production run provides the reliability service data, further improved heat exchange efficiency, reduced energy consumption, environmental protection more.

The technical solution of the utility model is as follows:

A kind of baffling high-efficiency heat exchanger, it comprises:

Ripple baffled exchanger housing, it guarantees that heat transferring medium flows for baffling in described heat exchanger shell;

Vltrasonic device, for generation of with transmit ultrasonic wave, it comprises interconnected ultrasonic wave generating mechanism and ultrasonic wave transmitting vibrations mechanism, described ultrasonic wave transmitting vibrations mechanism is located in described ripple baffled exchanger housing.

Preferably, described ultrasonic wave generating mechanism comprises ultrasonic wave controller and transducer, and described ultrasonic wave controller is connected with described transducer, and described transducer is connected with described ultrasonic wave transmitting vibrations mechanism.Wherein, described transducer is preferably magnetostrictive transducer.This is due to this transducer energy long time continuous working, makes ultrasonic wave continue to produce cavitation effect and eddy current, suppresses incrustation scale, silt, iron rust adhering on heat-exchanger surface.

In view of mostly there being large granular impurity in common heat transferring medium, preferably this heat exchanger further comprise be located at heat exchanger entrance for filtering the inlet filter of large particulate matter.Certainly, when heat transferring medium does not have large granular impurity, also inlet porting filter not.

In order to realize the automatic control of the utility model heat exchanger, preferably this heat exchanger further comprises heat exchange efficiency real-time inspection and control system, the temperature and pressure data at its monitoring heat exchanger entrance and exit place, and calculate heat exchange efficiency, regulate the flow of described heat exchanger according to described heat exchange efficiency, make described heat exchanger remain on best heat exchange state.Particularly, described heat exchange efficiency real-time inspection and control system comprises temperature sensor and the pressure sensor of being located at heat transferring medium entrance and exit place, controller and the motor-operated control valve body of being located at described ripple baffled exchanger housing, described controller and described temperature sensor and pressure sensor, the motor-operated control valve body connects respectively, described temperature sensor and pressure sensor gather the temperature and pressure data of porch in real time or regularly, described controller is collected described temperature and pressure data, calculate and demonstrate in real time the heat exchange efficiency value, and automatically regulate as required described motor-operated control valve body, make described heat exchanger remain on best heat exchange state.In the consideration of system handling safety, described controller also is provided with the secret order module for realizing that password or secret order are controlled, and described secret order module integration is on described controller.

Preferably, described ultrasonic wave controller is connected with the controller of described heat exchange efficiency real-time inspection and control system, thereby is more conducive to realize the integral body control of this heat exchanger.

In preferred embodiment of the present utility model, described ripple baffled exchanger housing is circular, it mainly is comprised of circular wave baffling heat exchanger fin and circular shading ring, described circular shading ring is located at the inside and outside both sides of circular wave baffling heat exchanger fin, wherein, described circular wave baffling heat exchanger fin is provided with for heat transferring medium the mobile heat exchanger fin passage between described heat exchanger fin.Wherein preferred, described circular shading ring comprises circular interior ring shading ring, circular outer shroud shading ring, and described circular outer shroud shading ring further comprises that circular outer shroud is isolated thin ring and circular outer shroud is isolated thick ring.In addition, described ripple baffled exchanger housing also comprises the side end panel that is arranged on described ripple baffled exchanger housing two ends, and described side end panel is provided with gas/liquid and imports and exports.Except circle, above-mentioned ripple baffled exchanger housing and parts thereof can also be any other suitable shape.Cited herein is only a specific embodiment of ripple baffled exchanger housing, and the utility model is also included in all heat exchanger ways of realization that can realize that the baffling of heat transferring medium in heat exchanger flows.

In preferred embodiment of the present utility model, described ultrasonic wave transmitting vibrations mechanism comprises ultrasonic wave transmitting vibrations ripple wing and ultrasonic wave transmitter shaft, and the layering of described ultrasonic wave transmitting vibrations ripple wing is around being located on described ultrasonic wave transmitter shaft and inserting described ripple baffling heat exchanger fin.Arranging of this structure setting, especially ultrasonic wave transmitting vibrations ripple wing guaranteed the effective transmission of ultrasonic wave in whole heat exchanger.

Preferably, it further comprises sound-absorbing sound insulation and noise reduction shell, and described sound-absorbing sound insulation and noise reduction shell is located at described ripple baffled exchanger housing and Vltrasonic device periphery.This is that this sound-absorbing sound insulation and noise reduction shell can and be isolated in the noise reduction shell acoustic absorption because ultrasonic wave can send very strong shrillness sound when moving.

Usually, in transportation safety and installation, consider easily, this heat exchanger further comprises that described outer protecting shell is located at the periphery of all other parts for transporting the outer protecting shell of protection.

The utility model also provides a kind of baffling high-efficiency heat exchanger set, it is formed by a plurality of above-mentioned baffling high-efficiency heat exchanger combinations, and when it is provided with heat exchange efficiency real-time inspection and control system, its controller be a plurality of controllers that arrange respectively or integrated one for controlling the large controller of all heat exchangers.

The utility model further provides a kind of ripple baffled exchanger housing, it mainly is comprised of ripple baffling heat exchanger fin and shading ring, described shading ring is located at the inside and outside both sides of ripple baffling heat exchanger fin, wherein, described ripple baffling heat exchanger fin is provided with for heat transferring medium the mobile heat exchanger fin passage between described heat exchanger fin.Preferably, ripple baffling heat exchanger fin and shading ring are circular, and they can also be any other suitable shape in addition.

Preferably, described ripple baffled exchanger housing also comprises the side end panel that is arranged on these heat exchanger two ends, and described side end panel is provided with gas/liquid and imports and exports.

Compared with prior art, the beneficial effects of the utility model are as follows:

The one, the utility model heat exchanger adopts the baffling structural design, and its advantage is to make heat transferring medium time of staying length, heat-transfer surface increase, baffling in heat exchanger flow fully, improves heat exchange efficiency;

The 2nd, heat exchanger of the present utility model has adopted Vltrasonic device, and ultrasonic wave has antiscaling, descaling, places the effect of metal shell oxidation and augmentation of heat transfer effect, thereby has not only solved the scale problems of heat exchanger, has also improved heat exchange efficiency;

The 3rd. heat exchanger of the present utility model also is provided with heat exchange efficiency real-time inspection and control system, this system is the duty of reflect heat interchanger in real time, and regulated by the duty of heat exchanger, reach better heat exchange efficiency, for reducing discharging, industry energy conservation creates better benefit;

The 4th. a plurality of monomer heat exchangers of the present utility model are combined into to heat exchanger set, not only can realize extensive heat exchange function, have again and overhaul one by one function, for more multiple-effect benefit has been created in enterprise's on-line maintenance simultaneously.

Certainly, implement arbitrary product of the present utility model and might not need to reach above-described all advantages simultaneously.

The accompanying drawing explanation

The structural representation of the baffling high-efficiency heat exchanger that Fig. 1 is the utility model embodiment 1;

The structural representation at another visual angle of baffling high-efficiency heat exchanger that Fig. 2 is the utility model embodiment 1;

The structural representation of the heat exchanger shell that Fig. 3 is the utility model embodiment 1;

The structural representation of the heat exchanger fin that Fig. 4 is the utility model embodiment 1;

The ultrasonic wave transmitting vibrations ripple wing that Fig. 5 is the utility model embodiment 1 and the structural representation of ultrasonic wave transmitter shaft.

The specific embodiment

The utility model is applied to ultrasonic technique in heat exchanger, for antiscaling, descaling, submit heat exchange efficiency to, prevent metal shell corrosion, wherein:

The anti-scale removal technology of ultrasonic wave is to utilize the ultrasonic high-frequency impulse wave of oscillation to reach the antiscaling, descaling purpose in a series of effects of heat exchanger metal covering and the generation of materials inside liquid levels, and can play the effect of augmentation of heat transfer.Its concrete mechanism is: the sonic oscillation ripple vertically acts on the heat exchanger metal surface, make its fast propagation in metal, the metal wall and the adjacent liquid level that are vibrated have produced repulsive force, make liquid away from wall, then set back, produced a time difference in this process, a narrow and small vacuum area appears, surrounding liquid can be filled rapidly, produce microvovtex, gone round and begun again, just produced this high speed microvovtex effect, this high speed microvovtex effect has been blocked dirty matter composition in liquid and has been attached to the condition of metal pipe-wall, thereby has reached antiscaling effect.And the high speed microvovtex makes liquid constantly wash away the soft dirt on the metal wall, soft dirt is flowed away with liquid, thereby solve soft dirty problem, same high speed microvovtex can be taken away the bubble of peripheral metal, reaches the purpose that prevents burning.

For the hard scale matter be attached on metallic walls, under the effect of dither, because the elastic impedance of metal and dirty matter is different, frequency response is also inconsistent, make to produce different vibrations between the two, hard scale is more far short of what is expected than the elastic impedance of metal, can form micro-punching property shearing force of multidirectional in inside, makes dirty matter fatigue, crackle, loosens, comes off.And, when producing crack, capillary appearance will be arranged, and liquid enters into rapidly by crack in the middle of the dirt layer, and the volume rapid expansion of being heated during contact high-temperature metal pipe is accelerated the disengaging of dirty matter, and this has just reached the effect of scale removal.

In addition, ultrasonic energy is delivered to the ripple wing by transmitter shaft, by the ripple wing, transfer of ultrasonic energy is arrived to whole heat exchanger, by medium, produces cavitation effect, accelerates to conduct heat and eddy current, thereby reaches the augmentation of heat transfer effect, improves the heat exchanger heat transfer efficiency.

Below in conjunction with specific embodiment, the utility model is done to further detailed description.But following embodiment also is not used in restriction protection domain of the present utility model.

Embodiment 1

Referring to Fig. 1 and Fig. 2, the baffling high-efficiency heat exchanger that the present embodiment provides, it comprises:

Ripple baffled exchanger housing 1, this housing 1 flows for baffling in described heat exchanger shell for guaranteeing heat transferring medium, referring to Fig. 3, particularly, a kind of heat exchanger shell 1 that the present embodiment provides herein is circular wave baffled exchanger housing, it mainly is comprised of circular wave baffling heat exchanger fin 11 and circular shading ring, circular shading ring is located at the inside and outside both sides of circular wave baffling heat exchanger fin 11, it specifically comprises circular interior ring shading ring 12, circular outer shroud shading ring, described circular outer shroud shading ring further comprises that circular outer shroud is isolated thin ring 13 and circular outer shroud is isolated thick ring 14, wherein, in circular, ring shading ring 12 is arranged on the inboard of circular wave baffling heat exchanger fin 11, circular outer shroud isolates thin ring 13 and circular outer shroud is isolated the outside that thick ring 14 all is arranged on circular wave baffling heat exchanger fin 11.Wherein, circular wave baffling heat exchanger fin 11 is provided with heat exchanger fin passage 111, and referring to Fig. 4, this passage is flowing 11 of heat exchanger fins for heat transferring medium.Wherein, the size of the heat exchanger fin channel sized shown in Fig. 4 and heat exchanger fin is only for illustrating, and is not used in restriction, and in the utility model, the relative size of heat exchanger fin passage and heat exchanger fin can be selected arbitrarily in suitable scope.In addition, this heat exchanger shell also comprises the side end panel 15 that is arranged on its two ends, and side end panel 15 is provided with gas/liquid and imports and exports 16.At the utility model in preferred embodiment herein, heat exchanger shell and corresponding parts thereof all are set to circle, so that processing and assembling, but the utility model does not limit heat exchanger shell and parts are only circle, in other embodiment of the present utility model, they can adopt other any suitable shape, do not do restriction herein.

Vltrasonic device, for generation of with transmit ultrasonic wave, comprise interconnected ultrasonic wave generating mechanism and and ultrasonic wave transmitting vibrations mechanism, described ultrasonic wave transmitting vibrations mechanism is located in described ripple baffled exchanger housing.Specifically in the present embodiment, the ultrasonic wave generating mechanism comprises ultrasonic wave controller 2 and transducer 3, and ultrasonic wave controller 2 is connected with transducer 3, and transducer 3 is connected with ultrasonic wave transmitting vibrations mechanism.Transducer 3 selects to adopt magnetostrictive transducer, adopt magnetostrictive transducer can give full play to the advantage of this transducer energy long time continuous working, make ultrasonic wave continue to produce cavitation effect and eddy current, suppressed incrustation scale, silt, iron rust adhering on heat-exchanger surface.Described ultrasonic wave transmitting vibrations mechanism comprises ultrasonic wave transmitting vibrations ripple wing 41 and ultrasonic wave transmitter shaft 42, referring to Fig. 5, wherein 41 layerings of ultrasonic wave transmitting vibrations ripple wing are around being located on ultrasonic wave transmitter shaft 42 and inserting heat exchanger fin 11 gaps, referring to Fig. 1 and Fig. 2.Like this, ultrasonic energy is delivered to ultrasonic wave transmitting vibrations ripple wing 41 by ultrasonic wave transmitter shaft 42, by ultrasonic wave transmitting vibrations ripple wing 41, transfer of ultrasonic energy is arrived to whole heat exchanger, and produce cavitation effect by medium, accelerate to conduct heat and eddy current, thereby reach the augmentation of heat transfer effect, improve the heat exchanger heat transfer efficiency, and reach the purpose of antiscaling, descaling simultaneously.In addition, because ultrasonic wave can send very strong shrillness sound when moving, so preferably in the present embodiment, the outer sound-absorbing sound insulation and noise reduction shell 5 that is arranged with of ripple baffled exchanger housing 1, and the shell that preferably this sound-absorbing sound insulation and noise reduction shell 5 is made for foamed aluminium sound-absorbing acoustic material, it is arranged on to circular wave baffled exchanger housing and Vltrasonic device outside, by acoustic absorption and be isolated in this noise reduction shell 5.Certainly, the material of sound-absorbing sound insulation and noise reduction shell is not limited to foamed aluminium, and it can select any applicable material.

Preferably in the present embodiment, this baffling high-efficiency heat exchanger further comprise be located at this heat exchanger entrance for filtering the inlet filter of large particulate matter.

In the optimal way of the present embodiment, further comprise heat exchange efficiency real-time inspection and control system, the temperature and pressure data at its monitoring heat exchanger entrance and exit place, and calculate heat exchange efficiency, regulate the flow of described heat exchanger according to described heat exchange efficiency, make described heat exchanger remain on best heat exchange state.Particularly, referring to Fig. 1, heat exchange efficiency real-time inspection and control system provided herein comprises temperature sensor 6 and the pressure sensor 7 of being located at heat transferring medium entrance and exit place, controller 8 and the motor-operated control valve body of being located at described ripple baffled exchanger housing, controller 8 and temperature sensor 6 and pressure sensor 7, the motor-operated control valve body connects respectively, temperature sensor 6 and pressure sensor 7 gather the temperature and pressure data of porch in real time or regularly, controller 8 is collected described temperature and pressure data, calculate and demonstrate in real time the heat exchange efficiency value, and automatically regulate as required described motor-operated control valve body, make described heat exchanger remain on best heat exchange state.Wherein, the temperature sensor 6 shown in figure and the arrangement mode of pressure sensor 7 are only for giving an example, and the utility model can also, with other any suitable arrangement mode, not done restriction herein.In addition, also can will arrange one on controller 8 for realizing the secret order module of password or secret order control as required, this secret order module can be integrated on controller 8.The security that the secret order module can guarantee this control system operation is set, prevents that the other staff outside operating personnel from arbitrarily controlling.In addition, preferably ultrasonic wave controller 2 is connected with the controller 8 of above-mentioned heat exchange efficiency real-time inspection and control system, and the integral body of being convenient to this heat exchanger is controlled.

In the optimal way of the present embodiment; this heat exchanger further comprises the outer protecting shell 9 for transporting protection; the shape of this outer protecting shell 9 is usually consistent with the shape of heat exchanger shell; but also can be inconsistent; this outer protecting shell 9 is cylindrical herein; and be located at the periphery of all other parts, to form an integral body, be convenient to transportation and install.

Embodiment 2

The present embodiment provides a kind of baffling high-efficiency heat exchanger set, its baffling high-efficiency heat exchanger in embodiment 1 combination forms, and the controller of heat exchange efficiency real-time inspection and control system for a plurality of controllers that arrange respectively corresponding to each heat exchanger or integrated one for controlling the large controller of all heat exchangers.

Above disclosed the utility model preferred embodiment is just for helping to set forth the utility model.Preferred embodiment does not have all details of detailed descriptionthe, and also not limiting this utility model is only the described specific embodiment.Obviously, according to the content of this specification, can make many modifications and variations.These embodiment are chosen and specifically described to this specification, is in order to explain better principle of the present utility model and practical application, thereby under making, the technical field technical staff can understand and utilize the utility model well.The utility model only is subject to the restriction of claims and four corner and equivalent.

Claims (18)

1. a baffling high-efficiency heat exchanger, is characterized in that, it comprises:

Ripple baffled exchanger housing, it guarantees that heat transferring medium flows for baffling in described heat exchanger shell;

Vltrasonic device, for generation of with transmit ultrasonic wave, it comprises interconnected ultrasonic wave generating mechanism and ultrasonic wave transmitting vibrations mechanism, described ultrasonic wave transmitting vibrations mechanism is located in described ripple baffled exchanger housing.

2. baffling high-efficiency heat exchanger as claimed in claim 1, it is characterized in that, described ultrasonic wave generating mechanism comprises ultrasonic wave controller and transducer, and described ultrasonic wave controller is connected with described transducer, and described transducer is connected with described ultrasonic wave transmitting vibrations mechanism.

3. baffling high-efficiency heat exchanger as claimed in claim 1 or 2, it is characterized in that, further comprise heat exchange efficiency real-time inspection and control system, the temperature and pressure data at its monitoring heat exchanger entrance and exit place, and calculate heat exchange efficiency, regulate the flow of described heat exchanger according to described heat exchange efficiency, make described heat exchanger remain on best heat exchange state.

4. baffling high-efficiency heat exchanger as claimed in claim 3, it is characterized in that, described heat exchange efficiency real-time inspection and control system comprises temperature sensor and the pressure sensor of being located at heat transferring medium entrance and exit place, controller and the motor-operated control valve body of being located at described ripple baffled exchanger housing, described controller and described temperature sensor and pressure sensor, the motor-operated control valve body connects respectively, described temperature sensor and pressure sensor gather the temperature and pressure data of porch in real time or regularly, described controller is collected described temperature and pressure data, calculate and demonstrate in real time the heat exchange efficiency value, and automatically regulate as required described motor-operated control valve body, make described heat exchanger remain on best heat exchange state.

5. baffling high-efficiency heat exchanger as claimed in claim 4, is characterized in that, described controller also is provided with the secret order module for realizing that password or secret order are controlled, and described secret order module integration is on described controller.

6. baffling high-efficiency heat exchanger as described as claim 4 or 5, is characterized in that, described ultrasonic wave controller is connected with the controller of described heat exchange efficiency real-time inspection and control system.

7. baffling high-efficiency heat exchanger as claimed in claim 1, it is characterized in that, described ripple baffled exchanger housing mainly is comprised of ripple baffling heat exchanger fin and shading ring, described shading ring is located at the inside and outside both sides of ripple baffling heat exchanger fin, wherein, described ripple baffling heat exchanger fin is provided with for heat transferring medium the mobile heat exchanger fin passage between described heat exchanger fin.

8. baffling high-efficiency heat exchanger as claimed in claim 7, is characterized in that, described shading ring comprises interior ring shading ring, outer shroud shading ring, and described outer shroud shading ring further comprises that outer shroud is isolated thin ring and outer shroud is isolated thick ring.

9. baffling high-efficiency heat exchanger as claimed in claim 8, is characterized in that, described ripple baffled exchanger housing, ripple baffling heat exchanger fin, interior ring shading ring, outer shroud are isolated thin ring and outer shroud and isolated thick ring and be circle.

10. as claim 7 or 8 or 9 described baffling high-efficiency heat exchangers, it is characterized in that, described ripple baffled exchanger housing also comprises the side end panel that is arranged on described ripple baffled exchanger housing two ends, and described side end panel is provided with gas/liquid and imports and exports.

11. as claim 7 or 8 or 9 described baffling high-efficiency heat exchangers, it is characterized in that, described ultrasonic wave transmitting vibrations mechanism comprises ultrasonic wave transmitting vibrations ripple wing and ultrasonic wave transmitter shaft, and the layering of described ultrasonic wave transmitting vibrations ripple wing is around being located on described ultrasonic wave transmitter shaft and inserting described ripple baffling heat exchanger fin.

12. baffling high-efficiency heat exchanger as claimed in claim 1, is characterized in that, it further comprises sound-absorbing sound insulation and noise reduction shell, and described sound-absorbing sound insulation and noise reduction shell is located at described ripple baffled exchanger housing and described Vltrasonic device periphery.

13. as claim 1 or 4 or 12 described baffling high-efficiency heat exchangers, it is characterized in that, it further comprises that described outer protecting shell is located at the periphery of all other parts for transporting the outer protecting shell of protection.

14. baffling high-efficiency heat exchanger as claimed in claim 1, is characterized in that, further comprise be located at described heat exchanger entrance for filtering the inlet filter of large particulate matter.

15. baffling high-efficiency heat exchanger as claimed in claim 2, is characterized in that, described transducer is magnetostrictive transducer.

A 16. baffling high-efficiency heat exchanger set, it is characterized in that, in a plurality of claim 1-15, the described baffling high-efficiency heat exchanger combination of any one forms, and when it is provided with heat exchange efficiency real-time inspection and control system, its controller be a plurality of controllers that arrange respectively or integrated one for controlling the large controller of all heat exchangers.

A 17. ripple baffled exchanger housing, it is characterized in that, it mainly is comprised of ripple baffling heat exchanger fin and shading ring, described shading ring is located at the inside and outside both sides of ripple baffling heat exchanger fin, wherein, described ripple baffling heat exchanger fin is provided with for heat transferring medium the mobile heat exchanger fin passage between described heat exchanger fin.

18. ripple baffled exchanger housing as claimed in claim 17, is characterized in that, described ripple baffled exchanger housing also comprises the side end panel that is arranged on these heat exchanger two ends, and described side end panel is provided with gas/liquid and imports and exports.

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