CN210601674U - Catalytic combustion's rotatory wing desorption energy-saving appliance - Google Patents

Abstract

The utility model discloses a catalytic combustion's rotatory wing desorption energy-saving appliance, including economizer body and adsorption tank, the left end upside of economizer body is connected with catalytic combustion ware, and the lower extreme right side of economizer body passes through spark arrester and desorption fan interconnect, and the right-hand member upside of economizer body is connected with the air make-up device simultaneously, the left side at the economizer body is connected to the adsorption tank, and the inside of adsorbing the tank is provided with adsorbs the piece, the right-hand member upside that adsorbs the tank is connected with automatic valve, and the right-hand member downside that adsorbs the tank is connected with the spray valve, the upper end that adsorbs the tank is through discharging fan and delivery pipe interconnect, and the middle part and the economizer body interconnect of delivery pipe, the lower extreme of automatic valve is provided with automatic control, the right-hand member that sprays the valve is connected with the water pump. This catalytic combustion's rotary wing desorption energy-saving appliance not only can improve the holistic heat recovery of device and heat exchange efficiency, and save device's energy consumption simultaneously ensures that the active carbon incasement temperature is stable at 11 ℃, makes the active carbon desorption more thorough, and is clean, practices thrift the energy consumption cost.

Description

Catalytic combustion's rotatory wing desorption energy-saving appliance

Technical Field

The utility model relates to an air purification technical field, concretely relates to catalytic combustion's rotary wing desorption energy-saving appliance.

Background

For the heat transfer process, the quantity of heat transferred is unchanged from the aspect of quantity, but the quality of heat is changed, and the quality of the heat transfer process is reduced, just because of the existence of heat dissipation, so the efficiency of the heat transfer process can be defined as follows, the heat dissipation is integrated in the whole flowing heat exchange area to obtain the total heat loss and the heat transfer quantity, the efficiency of the heat transfer process is defined, and meanwhile, the heat recovery is to recover and reuse a large amount of waste heat discharged to the outside in the running process of the water chilling unit in a certain mode to be used as a final heat source or a primary heat source of a user.

However, most of the existing heat recovery and heat exchange devices have poor controllability on heat, and generally adopt a tubular heat exchanger or a plate-tube heat exchanger, so that the relative heat exchange and heat recovery efficiency is low, and the heat exchange efficiency of the device is influenced. Aiming at the problems, the novel design is carried out on the basis of the original combustion method desorption economizer device.

Disclosure of Invention

In view of the above disadvantages, the present invention provides a catalytic combustion rotary wing desorption energy saver, which solves the problems of poor heat recovery performance of most heat recovery and heat exchange devices, low heat exchange and heat recovery efficiency, and low work efficiency of the device;

in order to achieve the above purpose, the utility model provides a technical scheme is:

the utility model provides a catalytic combustion's rotatory wing desorption energy-saving appliance, includes energy-saving appliance body and adsorption tank, the left end upper side of energy-saving appliance body is connected with catalytic combustion ware, and the lower extreme right side of energy-saving appliance body passes through spark arrester and desorption fan interconnect, and the right-hand member upside of energy-saving appliance body is connected with the air make-up device simultaneously, the left side at the energy-saving appliance body is connected to the adsorption tank, and the inside of adsorption tank is provided with adsorbs the piece, the right-hand member upside of adsorption tank is connected with the automatic valve, and the right-hand member downside of adsorption tank is connected with the spray valve, the upper end of adsorption tank is through discharging fan and delivery pipe interconnect, and the middle part and the energy-saving appliance body interconnect of delivery pipe, the lower extreme of automatic valve is provided with automatic control, and automatic control's lower.

Preferably, the economizer body and the catalytic combustor are of a welded integrated structure, and two economizer bodies are symmetrically distributed on the vertical axis of the catalytic combustor.

Preferably, the flame arrester is symmetrically distributed about the vertical axis of the economizer body, and the right end of the flame arrester is rotatably connected with the desorption fan.

Preferably, the left side of absorption case at the energy-saving appliance body sets up equidistant five, and the inside of absorption case is connected for the block with adsorbing the piece, adsorbs the piece simultaneously and is honeycomb structure.

Preferably, two nitrogen cylinders are symmetrically distributed on a vertical axis of the automatic controller, and the automatic controller is communicated with the adsorption tank through an automatic valve.

Preferably, the longitudinal section of the discharge pipe is in a hammer-shaped structure, and the length of the lower bottom edge of the conical structure is greater than that of the upper bottom edge.

The utility model has the advantages that: the catalytic combustion rotary wing desorption energy saver has the advantages that the structure of the energy saver body and the catalytic combustor is convenient for increasing the overall heat exchange efficiency of the device, the catalytic combustion can realize spontaneous combustion balance under lower VOCs inlet concentration, less after-combustion energy consumption, smaller weight, smaller floor bearing requirement and smaller size, the advantages are larger in large air quantity, the distribution of the flame arrester and the energy saver body is convenient for increasing the working safety of the energy saver body, the influence caused by overhigh temperature of the energy saver body is avoided, the distribution of the adsorption box is convenient for increasing the adsorption efficiency of the adsorption blocks on harmful gas in the device, meanwhile, the honeycomb structure of the adsorption blocks can increase the adsorption quality of the adsorption blocks, the distribution of the nitrogen cylinders increases the working stability of the nitrogen cylinders, the influence of the single nitrogen cylinders on the working efficiency of the device in the case of failure is avoided, and the structure of the discharge pipe can increase the stability, the safety performance of the device is improved.

The present invention will be further explained with reference to the drawings and the embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the economizer body and the desorption fan of the present invention;

fig. 3 is an enlarged schematic view of a portion a of fig. 1 according to the present invention.

The reference numerals in the drawings are explained below.

The device comprises an energy saver body-1, a catalytic combustor-2, a flame arrester-3, a desorption fan-4, an air supply device-5, an adsorption tank-6, an adsorption block-7, an automatic valve-8, a spray valve-9, a discharge fan-10, an automatic controller-11, a nitrogen cylinder-12, a water pump-13 and a discharge pipe-14.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a catalytic combustion rotary wing desorption energy saver comprises an energy saver body 1, a catalytic combustor 2, a flame arrester 3, a desorption fan 4, an air supplement device 5, an adsorption tank 6, an adsorption block 7, an automatic valve 8, a spray valve 9, a discharge fan 10, an automatic controller 11, a nitrogen cylinder 12, a water pump 13 and a discharge pipe 14, wherein the catalytic combustor 2 is connected to the upper side of the left end of the energy saver body 1, the right side of the lower end of the energy saver body 1 is connected with the desorption fan 4 through the flame arrester 3, the air supplement device 5 is connected to the upper side of the right end of the energy saver body 1, the adsorption tank 6 is connected to the left side of the energy saver body 1, the adsorption block 7 is arranged inside the adsorption tank 6, the automatic valve 7 is connected to the upper side of the right end of the adsorption tank 6, the spray valve 9 is connected to the lower side of the right end of the adsorption tank 6, and the discharge pipe 14 are connected with, the middle part of the discharge pipe 14 is connected with the energy saver body 1, the lower end of the automatic valve 8 is provided with an automatic controller 11, the lower end of the automatic controller 11 is connected with a nitrogen cylinder 12, and the right end of the spray valve 9 is connected with a water pump 13;

the energy saver body 1 and the catalytic combustor 2 are of a welded integrated structure, two energy saver bodies 1 are symmetrically distributed on a vertical axis of the catalytic combustor 2, the structure of the energy saver body 1 and the catalytic combustor 2 is convenient for increasing the overall heat exchange efficiency of the device, and the catalytic combustion can realize spontaneous combustion balance under lower VOCs inlet concentration, less afterburning energy consumption, smaller weight, smaller floor slab bearing requirement, smaller size and larger advantage in large air volume;

two flame arresters 3 are symmetrically distributed about a vertical axis of the economizer body 1, the right end of each flame arrester 3 is rotatably connected with the desorption fan 4, and the flame arresters 3 and the economizer body 1 are distributed so as to increase the working safety of the economizer body 1 and avoid the influence caused by overhigh temperature of the economizer body 1;

five adsorption boxes 6 are arranged on the left side of the energy saver body 1 at equal intervals, the interior of each adsorption box 6 is connected with an adsorption block 7 in a clamping mode, the adsorption blocks 7 are of a honeycomb structure, the adsorption boxes 6 are distributed so that the adsorption efficiency of the adsorption blocks 7 on harmful gas in the device can be increased, and the honeycomb structure of each adsorption block 7 can increase the adsorption quality of the adsorption blocks 7;

the two nitrogen cylinders 12 are symmetrically distributed about the vertical axis of the automatic controller 11, the automatic controller 11 is communicated with the adsorption tank 6 through the automatic valve 8, the distribution of the nitrogen cylinders 12 increases the working stability of the nitrogen cylinders 12, and the influence of the single nitrogen cylinder 12 on the working efficiency of the device during the failure is avoided;

the longitudinal section of the discharge pipe 14 is hammer-shaped, and the length of the lower bottom edge of the conical structure is larger than that of the upper bottom edge, so that the structure of the discharge pipe 14 can increase the stability of the discharge pipe 14 and improve the safety performance of the device.

Referring to fig. 1 and 2, firstly, the connection between the adsorption tank 6 and the catalytic combustor 2 facilitates the improvement of the heat exchange efficiency and the heat recovery efficiency of the whole device, the heat exchange efficiency of the whole device is easily improved to more than 75%, and the catalytic combustor 2 can realize spontaneous combustion balance under lower import concentration of VOCs, thereby achieving the effects of less afterburning energy consumption, less weight, smaller floor bearing requirements, smaller size, larger air volume and objectively upgrading CO to RCO when the temperature resistance reaches more than 600 ℃;

referring to fig. 1 and 3, the energy saver body 1 and the automatic controller 11 are arranged to adjust the state of the device, two sets of logics are compiled in the automatic controller 11 in advance, the logics are respectively used for high-concentration overtemperature protection and air supply temperature adjustment, the rotating speed of a rotating wheel of the desorption fan 4 is changed through monitoring the temperature of each part and intelligent operation, the heat exchange efficiency is automatically adjusted, and when the concentration of a treated air inlet is too high, the efficiency is automatically reduced, and the overtemperature of the CO furnace is reduced; or the efficiency is changed along with the fluctuation of the temperature of the exhaust fan 10, and the regenerative desorption air with relatively stable temperature is provided for the adsorption block 7;

referring to fig. 1 and fig. 3, the single-stage resistance of the economizer body 1 is only 160Pa to 240Pa, 240Pa can be maintained even at 60% heat exchange efficiency, the total resistance of the integrated combined machine does not exceed 1000Pa, can greatly reduce the running cost and running energy consumption of the fan, the external gas is primarily cooled and adjusted by the energy saver body 1 after being processed by the catalytic burner 2, and is conveyed upwards to the interior of the adsorption box 6 by the desorption fan 4 to be primarily adsorbed by the adsorption block 7, and moves to the right, part of the gas is directly discharged to a discharge pipe 14 through a discharge fan 10, and the rest of the gas enters a water pump 13 for filtering after passing through a spray valve 9, an automatic controller 11 is convenient for detecting the temperature of the gas, the automatic valve 8 and the spray valve 9 are opened and closed, so that the desorption efficiency and the heat exchange efficiency of the device are improved, and the working principle of the catalytic combustion rotary wing desorption energy saver is realized.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. In addition, although specific terms are used herein, they are used in a generic and descriptive sense only and not for purposes of limitation, the scope of the invention being defined by the following claims and their equivalents.

Claims (6)

1. The utility model provides a catalytic combustion's rotatory wing desorption economizer which characterized in that: comprises an economizer body (1) and an adsorption tank (6), wherein the upper side of the left end of the economizer body (1) is connected with a catalytic burner (2), the right side of the lower end of the economizer body (1) is connected with a desorption fan (4) through a flame arrester (3), the upper side of the right end of the economizer body (1) is connected with an air supplementing device (5), the adsorption tank (6) is connected with the left side of the economizer body (1), an adsorption block (7) is arranged inside the adsorption tank (6), the upper side of the right end of the adsorption tank (6) is connected with an automatic valve (8), the lower side of the right end of the adsorption tank (6) is connected with a spray valve (9), the upper end of the adsorption tank (6) is connected with a discharge pipe (14) through a discharge fan (10), the middle part of the discharge pipe (14) is connected with the economizer body (1), the lower end of the automatic valve (8) is provided with an automatic controller (11), and the lower end of the automatic controller (11) is connected with a nitrogen cylinder (12), and the right end of the spray valve (9) is connected with a water pump (13).

2. A catalytic combustion rotary wing desorption economizer as claimed in claim 1 wherein: the energy saver body (1) and the catalytic combustor (2) are of a welding integrated structure, and two energy saver bodies (1) are symmetrically distributed on the vertical axis of the catalytic combustor (2).

3. A catalytic combustion rotary wing desorption economizer as claimed in claim 1 wherein: the flame arrester (3) is symmetrically distributed about the vertical axis of the energy saver body (1) in two numbers, and the right end of the flame arrester (3) is rotatably connected with the desorption fan (4).

4. A catalytic combustion rotary wing desorption economizer as claimed in claim 1 wherein: the left side of absorption case (6) at energy-saving appliance body (1) sets up equidistant five, and the inside of absorption case (6) is connected for the block with absorption piece (7), adsorbs piece (7) simultaneously and is honeycomb structure.

5. A catalytic combustion rotary wing desorption economizer as claimed in claim 1 wherein: the nitrogen gas cylinders (12) are symmetrically distributed about the vertical axis of the automatic controller (11), and the automatic controller (11) is communicated with the adsorption tank (6) through the automatic valve (8).

6. A catalytic combustion rotary wing desorption economizer as claimed in claim 1 wherein: the longitudinal section of the discharge pipe (14) is in a hammer-shaped structure, and the length of the lower bottom edge of the conical structure is greater than that of the upper bottom edge.

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