CN207333104U - A kind of high-temperature tail gas thermal energy converting system - Google Patents

Abstract

The utility model discloses a kind of high-temperature tail gas thermal energy converting system, heat source is used to converge the high-temperature tail gas produced in various environment, with the rising of air pressure in heat source, the air-flow that second end is flowed to from first end is produced in the airflow tube connected with heat source, so as to promote air blade to do work.With reference to heat source, by way of present embodiment passes through high-temperature gas --- air-flow --- transmission output, the recycling of high-temperature tail gas thermal energy is realized, advantageously reduces thermal losses, realizes energy-saving and emission-reduction.

Description

A kind of high-temperature tail gas thermal energy converting system

Technical field

It the utility model is related to energy-conserving and emission-cutting technology field, more particularly to a kind of high-temperature tail gas thermal energy converting system.

Background technology

In many large-scale productions, various tail gas can be all produced.Substantial amounts of heat is contained in these tail gas, directly Discharge, one, easily form high temperature damage；Two, thermal losses remains high, and is unfavorable for the strategy of sustainable development.

Utility model content

Based on technical problem existing for background technology, the utility model proposes a kind of high-temperature tail gas thermal energy converting system.

The utility model proposes a kind of high-temperature tail gas thermal energy converting system, including：Heat source, airflow tube, pneumatic component, biography Dynamic device, send heat pipe, auxiliary heat pipe and check valve；

The quantity of pneumatic component and transmission device is multiple, and is corresponded；

Pneumatic component is made of rotation axis and air blade, and air blade is rotational symmetry structure, and rotation axis is perpendicular to airflow tube It is axially mounted, its one end insertion airflow tube；Air blade is set on airflow tube and is fixedly connected with airflow tube；Air blade is with wind Air-flow in flow tube one-directionally rotates and drives rotation axis to rotate；

Transmission device is installed on outside airflow tube, and the corresponding rotation axis that is sequentially connected stretches out one end of airflow tube；

Housing is arranged with outside transmission device, housing is equipped with cold wind import and hot-blast outlet；Heat pipe both ends are sent to seal, auxiliary heat Tube at one end connects airflow tube, and other end connection send heat pipe, send heat pipe also to connect the hot-blast outlet on each housing；Along airflow tube Axis direction, auxiliary heat pipe both sides are distributed with pneumatic component, and are provided with auxiliary heat pipe from heat pipe is sent to airflow tube conducting Check valve；

Heat source is connected with airflow tube first end.

Preferably, on housing, hot-blast outlet is located above cold wind import.

Preferably, heat pipe is sent to be installed on above each housing.

Preferably, air inducing tower is further included, its top is equipped with offgas outlet, its bottom is connected with airflow tube second end.

Preferably, airflow tube is connected by disturbance chamber with air inducing tower, and disturbance intracavitary is led close to airflow tube side equipped with air-flow To device, disturbance intracavitary is equipped with disturbance close to air inducing tower side and plays lead device.

The utility model proposes a kind of high-temperature tail gas thermal energy converting system, when producing air-flow in airflow tube, air blade with The air-flow in airflow tube to one-directionally rotate and drive rotation axis to rotate, so that, rotation axis will occur in the movement inside airflow tube It is delivered to outside airflow tube, realizes the output of kinetic energy.The movement that rotation axis exports can further be converted by transmission device And it is used.In the utility model, pneumatic component visual makees power set, output shaft of the transmission device as power set, Both coordinate, and the conversion for realizing kinetic energy to mechanical kinetic energy exports.

In the utility model, heat source is used to converge the high-temperature tail gas that produces in various environment, with heat source air pressure it is upper Rise, the air-flow that second end is flowed to from first end is produced in the airflow tube connected with heat source, so as to promote air blade to do work.With reference to heat Source, by way of present embodiment passes through high-temperature gas --- air-flow --- transmission output, realizes the recycling of high-temperature tail gas thermal energy Utilize, advantageously reduce thermal losses, realize energy-saving and emission-reduction.

Brief description of the drawings

Fig. 1 be the utility model proposes a kind of high-temperature tail gas thermal energy converting system local structural graph；

Fig. 2 be the utility model proposes a kind of high-temperature tail gas thermal energy conversion system structure figure；

The pneumatic component diagrams of Fig. 3.

Embodiment

With reference to Fig. 1, Fig. 2, the utility model proposes a kind of high-temperature tail gas thermal energy converting system, including：It is heat source 1, distinguished and admirable Pipe 2, pneumatic component 3, transmission device 4, send heat pipe 5, auxiliary heat pipe 6 and check valve 7.

The quantity of pneumatic component 3 and transmission device 4 is multiple, and is corresponded.

With reference to Fig. 3, pneumatic component 3 is made of rotation axis 31 and air blade 32, and air blade 32 is rotational symmetry structure, is rotated Axis 31 is axially mounted perpendicular to airflow tube 2, its one end insertion airflow tube 2.Air blade 32 is set on airflow tube 2 and and airflow tube 2 are fixedly connected.When producing air-flow in airflow tube 2, air blade 32 is as the air-flow in airflow tube 2 one-directionally rotates and drives rotation axis 31 rotate, so that, the movement that rotation axis will occur in inside airflow tube 2 is delivered to outside airflow tube 2, realizes the defeated of kinetic energy Go out.

Transmission device 4 is installed on outside airflow tube 2, and the corresponding rotation axis 31 that is sequentially connected stretches out one end of airflow tube 2.Pass Dynamic device is highly developed in the prior art, in present embodiment, the fortune that rotation axis 31 can be exported by transmission device 4 It is dynamic further to convert and be used.In present embodiment, pneumatic component 3 may be regarded as power set, and transmission device is as power The output shaft of device, both coordinate, and the conversion for realizing kinetic energy to mechanical kinetic energy exports.

In present embodiment, heat source is connected with 2 first end of airflow tube.Heat source 1 is used to converge the height produced in various environment Warm tail gas, with the rising of air pressure in heat source 1, produces the gas that second end is flowed to from first end in the airflow tube 2 connected with heat source 1 Stream, so as to promote air blade 32 to do work.With reference to heat source, present embodiment passes through high-temperature gas --- air-flow --- transmission output Mode, realizes the recycling of high-temperature tail gas thermal energy, advantageously reduces thermal losses, realize energy-saving and emission-reduction.4 overcoat of transmission device Equipped with housing 8, housing 8 is equipped with cold wind import and hot-blast outlet.5 both ends of heat pipe are sent to seal, auxiliary 6 one end of heat pipe connection is distinguished and admirable Pipe 2, other end connection send heat pipe 5, send heat pipe 5 also to connect the hot-blast outlet on each housing 8.Produced during the transmission acting of transmission device 4 Heat amount, by cold wind import and the water conservancy diversion of hot-blast outlet, the hot-air that gathers in housing 8, which is imported into, send heat pipe 5, then passes through Auxiliary heat pipe 6 is back to progress heat-energy secondary recycling in airflow tube 2.In present embodiment, on housing 8, hot-blast outlet is positioned at cold Above wind inlet, heat pipe 5 is sent to be installed on each top of housing 8, to improve the organic efficiency of hot-air in housing 8.

In present embodiment, along 2 axis direction of airflow tube, auxiliary 6 both sides of heat pipe are distributed with pneumatic component, with limitation The backwash deployment of hot-air in housing 8 so that hot-air relatively low section of reflux of temperature out of airflow tube 2, realizes the height to hot-air Effect utilizes.

In present embodiment, it is provided with auxiliary heat pipe 6 from the check valve 7 for sending heat pipe 5 to be turned on to airflow tube 2, passes through list Can realize automatically controlling for hot air reflow in housing 8 to valve 7, thus ensure automatic monitoring to 2 back segment air pressure of airflow tube and Supplement, when avoiding 2 interior air-flow temperature of airflow tube higher, the hot air reflow in housing 8 adversely affects.

In present embodiment, air inducing tower 9 is further included, its top is equipped with offgas outlet, its bottom connects with 2 second end of airflow tube It is logical.The setting of air inducing tower 9, realizes the high altitude discharge of tail gas.In present embodiment, airflow tube 2 passes through disturbance chamber 10 and air inducing Tower 9 connects, and airflow guiding device 11 is equipped with close to 2 side of airflow tube in disturbance chamber 10, close 9 side of air inducing tower in disturbance chamber 10 Lead device 12 is played equipped with disturbance.Airflow guiding device 11 and disturbance play the setting of lead device 12, are conducive to guide 2 interior air-flow stream of airflow tube To, and increase wind speed, improve wind energy conversion efficiency.

The above, is only the preferable embodiment of the utility model, but the scope of protection of the utility model is not This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality New technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (5)

1. A kind of 1. high-temperature tail gas thermal energy converting system, it is characterised in that including：Heat source (1), airflow tube (2), pneumatic component (3), Transmission device (4), send heat pipe (5), auxiliary heat pipe (6) and check valve (7)；

   The quantity of pneumatic component (3) and transmission device (4) is multiple, and is corresponded；

   Pneumatic component (3) is made of rotation axis (31) and air blade (32), and air blade (32) is rotational symmetry structure, rotation axis (31) it is axially mounted perpendicular to airflow tube (2), its one end insertion airflow tube (2)；Air blade (32) is set on airflow tube (2) simultaneously It is fixedly connected with airflow tube (2)；Air blade (32) is as the air-flow in airflow tube (2) one-directionally rotates and drives rotation axis (31) to turn It is dynamic；

   Transmission device (4) is installed on airflow tube (2) outside, and the corresponding rotation axis (31) that is sequentially connected stretches out the one of airflow tube (2) End；

   Housing (8) is arranged with outside transmission device (4), housing (8) is equipped with cold wind import and hot-blast outlet；Send heat pipe (5) both ends Sealing, auxiliary heat pipe (6) one end connection airflow tube (2), other end connection send heat pipe (5), send heat pipe (5) also to connect each housing (8) hot-blast outlet on；Along airflow tube (2) axis direction, auxiliary heat pipe (6) both sides are distributed with pneumatic component, and auxiliary heat It is provided with conduit (6) from the check valve (7) for sending heat pipe (5) to be turned on to airflow tube (2)；

   Heat source is connected with airflow tube (2) first end.
2. 2. high-temperature tail gas thermal energy converting system as claimed in claim 1, it is characterised in that on housing (8), hot-blast outlet is located at Above cold wind import.
3. 3. high-temperature tail gas thermal energy converting system as claimed in claim 1 or 2, it is characterised in that send heat pipe (5) to be installed on each shell Above body (8).
4. 4. high-temperature tail gas thermal energy converting system as claimed in claim 1, it is characterised in that further include air inducing tower (9), its top Equipped with offgas outlet, its bottom is connected with airflow tube (2) second end.
5. 5. high-temperature tail gas thermal energy converting system as claimed in claim 4, it is characterised in that airflow tube (2) passes through disturbance chamber (10) connected with air inducing tower (9), airflow guiding device (11), disturbance chamber are equipped with close to airflow tube (2) side in disturbance chamber (10) (10) disturbance is equipped with close to air inducing tower (9) side play lead device (12) in.