CN104307449A

CN104307449A - Large-power microwave vertical type reactor

Info

Publication number: CN104307449A
Application number: CN201410516785.8A
Authority: CN
Inventors: 彭金辉; 常军; 叶乾旭; 张利波; 周俊文; 刘向先
Original assignee: Kunming University of Science and Technology
Current assignee: Kunming University of Science and Technology
Priority date: 2014-09-30
Filing date: 2014-09-30
Publication date: 2015-01-28
Anticipated expiration: 2034-09-30
Also published as: CN104307449B

Abstract

The invention relates to a large-power microwave vertical type reactor, belonging to the field of design and manufacturing of microwave equipment. The large-power microwave vertical type reactor comprises an outer microwave cavity and a reaction inner pipe which is arranged in the outer microwave cavity, wherein the outer microwave cavity is divided into two parts, namely a microwave cavity outer cover and cavity plates from inside to outside; the two sides of each cavity plate are connected with the microwave cavity outer cover by cavity plate rib plates; the outer microwave cavity is divided into three parts from top to bottom by an upper end steel channel framework, a middle connection steel channel frame and a lower end steel channel framework; and the outer microwave cavity is provided with a microwave heating part, a ventilation part, a water circulating part and a wave shielding part. The reactor adopts a microwave heating manner, so that materials can be directly and rapidly heated in a non-contact manner; the efficiency of converting microwave energy to heat energy is greatly improved due to a magnetron layout of the reactor; and a lot of small-power magnetrons are combined and matched so that the successful research of the extremely-large-power microwave vertical type reactor for industrial production is realized.

Description

The vertical reactor of a kind of HIGH-POWERED MICROWAVES

Technical field

The present invention relates to the vertical reactor of a kind of HIGH-POWERED MICROWAVES, belong to microwave equipment design and manufaction field.

Background technology

Heating using microwave is that newly-developed gets up and day by day ripe heating technique, and have contactless direct heating, body heats, and heating rate is fast, can promote interparticle infiltration, can carry out the advantages such as temperature control in time to handled material.

The design of significant power multimode cavity heating using microwave reactor is the bottleneck of industry always.The usefulness of the significant power microwave reactor be combined into by low-power magnetron is low, and mainly chromium magnetron installation site is unreasonable, and the electromagnetic wave causing each magnetron to send interferes counteracting mutually.

Summary of the invention

For above-mentioned prior art Problems existing and deficiency, the invention provides the vertical reactor of a kind of HIGH-POWERED MICROWAVES.This reactor adopts heating using microwave, and material can be made to realize contactless direct Fast Heating; The layout of this reactor magnetron, makes microwave energy be that the efficiency of heat energy greatly improves; The combinations matches of a large amount of low-power magnetron achieves the successful research and development of the pole significant power microwave reactor of industrial production, and the present invention is achieved through the following technical solutions.

The vertical reactor of a kind of HIGH-POWERED MICROWAVES, comprises external microwave cavity pipe interior with the reaction being built in external microwave cavity;

In the described reaction being built in external microwave cavity, pipe comprises the interior pipe tubule flange 1 connected successively from top to bottom, interior pipe upper end tubule 8, container boss 20, container body 32, slope, interior pipe lower end 7, interior pipe lower end tubule 19 and interior pipe tubule flange 1, container body 32 outside is provided with container floor, and side, slope 7, interior pipe lower end is provided with residual liquid discharge port 29;

Described external microwave cavity forms positive heptagon by 7 blocks of cavity plates, cavity plate 15 two parts that this external microwave cavity is divided into microwave cavity outer cover to be connected with microwave cavity outer cover by cavity rib of slab plate 14 with both sides from outside to inside, this external microwave cavity is from top to bottom by upper end slot steel frame 11, middle part link slot steel frame 5, lower end chan frame 6 is divided into three parts, external microwave cavity is provided with heating using microwave part, aeration portion, recirculated water part, cover ripple part, heating using microwave part comprises afferent echo hole 12, waveguide fixing hole 23, waveguide 4 and magnetron 13, each face on cavity plate 15 arranges some afferent echo holes 12, each afferent echo hole 12 is provided with some waveguide fixing holes 23, a waveguide 4 and magnetron 13 are installed in each afferent echo hole 12,

The enterprising wave hole 12 of described 7 blocks of cavity plates be specifically distributed as 3 classes: the first kind, cavity plate there are 3 row afferent echo holes 12, often arrange 7 afferent echo holes 12 spaced apart in length and breadth, wherein first afferent echo hole 12 of two edges row be laterally, and first afferent echo hole 12 of middle column is longitudinal direction; Equations of The Second Kind, cavity plate has 3 row afferent echo holes 12, and wherein the afferent echo hole 12 of two edge row distributes completely the same, there is the afferent echo hole 12 that 7 spaced apart in length and breadth, afferent echo hole, first, both sides 12 is that longitudinally 6 afferent echo holes 12 spaced apart are in length and breadth shown in centre, and middle first afferent echo hole 12 is laterally; 3rd class, cavity plate there are 3 row afferent echo holes 12, the enterprising wave hole 12 of 3 row is spaced apart in length and breadth, one shows 6 afferent echo holes 12, middle column shows 7 afferent echo holes 12 with another, and wherein first afferent echo hole 12 of left-hand column and middle column is longitudinally, and first afferent echo hole 12 of right-hand column is laterally, in seven blocks of cavity plates, the first six block is that the first kind and Equations of The Second Kind are alternately arranged, and last block is the 3rd class arrangement; Cover ripple part and cover ripple bucket 2 for exposed portion when pipe is placed in external microwave cavity in reaction is provided with.

Described microwave cavity outer cover is provided with some microwave cavity doors 3, and microwave cavity door 3 is provided with auxiliary air inlet 26.

Described upper end slot steel frame 11 top is provided with cavity top board 28, is provided with well floor 27 bottom lower end chan frame 6.

Described upper end slot steel frame 11 end face is provided with main fresh air inlet 24, and upper end slot steel frame 11 side is provided with exhaust vent 25.

Described recirculated water part comprises water inlet manifold 16, total outlet pipe 17, water inlet pipe bleeder 35, inlet pipe elbow 36, outlet pipe bleeder 37 and outlet pipe elbow 38, well floor 27 is provided with water inlet manifold 16, total outlet pipe 17, lower end chan frame 6 upper surface is provided with two pipelines around external microwave cavity, one of them pipeline connects water inlet manifold 16, another pipeline connects total outlet pipe 17, two pipelines by inlet pipe elbow 36, outlet pipe elbow 38 in each each connection water inlet pipe bleeder 35 of outside microwave cavity and outlet pipe bleeder 37.

Described magnetron 13 is provided with magnetron water inlet pipe 21 and magnetron outlet pipe 22, and magnetron water inlet pipe 21 is connected with obverse water inlet pipe bleeder 35 by sebific duct, and magnetron outlet pipe 22 is connected with obverse outlet pipe bleeder 37.

Described upper end slot steel frame 11 top is provided with hanger 10.

The vertical reactor of HIGH-POWERED MICROWAVES of the present invention can be used for liquid heating using microwave, or each solution microwave evaporation.

1, running water joins in apparatus of the present invention and carries out heating using microwave

First 600kg running water is entered from pipe lower end tubule 19 in shaft furnace toward interior tube pump, open shaft furnace cooling circulating water, open microwave vertical furnace power supply, opening all magnetrons 13, to control microwave power be 429KW, measure the time dependent situation of temperature of water in shaft furnace as shown in figure 12, as shown in Figure 12,600kg running water is under the microwave power of 429KW, only take time 227 seconds (3.8min) 50 DEG C can be risen to, need 591 seconds (10min) can be heated to seethe with excitement (93.8 DEG C).Under this condition, the electric energy conversion of this microwave vertical furnace is that the efficiency of the heat energy of running water reaches 83.06%.

2, concentration is that the hydrochloric acid solution of 4.76wt.% joins in apparatus of the present invention and carries out heating using microwave

In shaft furnace, pipe lower end tubule 19 enters toward interior tube pump the hydrochloric acid solution 500kg that concentration is 4.76%, open shaft furnace cooling circulating water, open microwave vertical furnace power supply, opening all magnetrons 13, to control microwave power be 429KW, measure the time dependent situation of temperature of water in shaft furnace as shown in figure 13, as shown in Figure 13, concentration is that the hydrochloric acid solution 500kg of 4.76% is under the microwave power of 429KW, only take time 119 seconds (2min) 40 DEG C can be risen to, need 232 seconds (3.9min) that 60 DEG C can be heated.Under this condition, the electric energy conversion of this microwave vertical furnace is that the efficiency of solution heat energy reaches 81.96%.

3, concentration is that the sodium chloride solution of 8wt.% joins in apparatus of the present invention and carries out heating using microwave

In shaft furnace, pipe lower end tubule 19 enters toward interior tube pump the sodium chloride solution 450kg that concentration is 8%, open shaft furnace cooling circulating water, open microwave vertical furnace power supply, opening all magnetrons 13, to control microwave power be 429KW, measures the time dependent situation of temperature of water in shaft furnace as Figure 14.As shown in Figure 14, concentration be the sodium chloride solution 450kg of 8% under the microwave power of 429KW, only take time 113 seconds (2min) can rise to 40 DEG C, needs 208 seconds (3.5min) can heat 60 DEG C.Under this condition, the electric energy conversion of this microwave vertical furnace is that the efficiency of solution heat energy reaches 86.4%.

The invention has the beneficial effects as follows: (1) Design and implementation industrial production HIGH-POWERED MICROWAVES reactor; (2) application of heating using microwave in industrial processes is effectively promoted; (3) electric energy-microwave energy-thermal energy rate is high, and 80% ~ 87%, significantly can reduce the energy consumption of association area; (4) can not contaminated material, industrial purifying and greenization can be realized; (5) due to the Fast Heating characteristic of microwave uniqueness, target product productivity ratio is greatly improved, by-product yields reduces.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is that the present invention reacts inner tube structure schematic diagram;

Fig. 3 is apex structure schematic diagram of the present invention;

Fig. 4 is local, upper end of the present invention structural representation A;

Fig. 5 is local, upper end of the present invention structural representation B;

Fig. 6 is local, upper end of the present invention structural representation C;

Fig. 7 is interlude partial structurtes schematic diagram of the present invention;

Fig. 8 is partial structurtes schematic diagram A bottom the present invention;

Fig. 9 is partial structurtes schematic diagram B bottom the present invention;

Figure 10 is magnetron structures schematic diagram of the present invention;

Figure 11 is afferent echo hole arrangement schematic diagram of the present invention;

Figure 12 is that running water joins in apparatus of the present invention temperature situation of change schematic diagram in time when carrying out heating using microwave;

The hydrochloric acid solution of Figure 13 to be concentration be 4.76wt.% joins in apparatus of the present invention temperature situation of change schematic diagram in time when carrying out heating using microwave evaporation;

The sodium chloride solution of Figure 14 to be concentration be 8wt.% joins in apparatus of the present invention temperature situation of change schematic diagram in time when carrying out heating using microwave evaporation.

In figure: pipe tubule flange in 1-, 2-covers ripple bucket, 3-microwave cavity door, 4-waveguide, link slot steel frame in the middle part of 5-, 6-lower end chan frame, slope, pipe lower end in 7-, pipe upper end tubule in 8-, 9-upper end bung, 10-hanger, 11-upper end slot steel frame, 12-afferent echo hole, 13-magnetron, 14-cavity rib of slab plate, 15-cavity plate, 16-water inlet manifold, the total outlet pipe of 17-, 18-lower end bung, pipe lower end tubule in 19-, 20-container boss, 21-magnetron water inlet pipe, 22-magnetron outlet pipe, 23-waveguide fixing hole, the main fresh air inlet of 24-, 25-exhaust vent, the auxiliary air inlet of 26-, 27-well floor, 28-cavity top board, 29-residual liquid discharge port, 30-container floor, 31-container reinforcing ring, 32-container body, 33-cavity top board, pipe upper end tubule lower flange in 34-, 35-water inlet pipe bleeder, 36-inlet pipe elbow, 37-outlet pipe bleeder, 38 outlet pipe elbows, 39-cavity plate flange, 40-floor connecting plate.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

Embodiment 1

As shown in Fig. 1 to 11, the vertical reactor of this HIGH-POWERED MICROWAVES, comprises external microwave cavity pipe interior with the reaction being built in external microwave cavity;

Wherein microwave cavity outer cover is provided with some microwave cavity doors 3, and microwave cavity door 3 is provided with auxiliary air inlet 26; Upper end slot steel frame 11 top is provided with cavity top board 28, is provided with well floor 27 bottom lower end chan frame 6; Upper end slot steel frame 11 end face is provided with main fresh air inlet 24, and upper end slot steel frame 11 side is provided with exhaust vent 25; Recirculated water part comprises water inlet manifold 16, total outlet pipe 17, water inlet pipe bleeder 35, inlet pipe elbow 36, outlet pipe bleeder 37 and outlet pipe elbow 38, well floor 27 is provided with water inlet manifold 16, total outlet pipe 17, lower end chan frame 6 upper surface is provided with two pipelines around external microwave cavity, one of them pipeline connects water inlet manifold 16, another pipeline connects total outlet pipe 17, two pipelines by inlet pipe elbow 36, outlet pipe elbow 38 in each each connection water inlet pipe bleeder 35 of outside microwave cavity and outlet pipe bleeder 37; Magnetron 13 is provided with magnetron water inlet pipe 21 and magnetron outlet pipe 22, and magnetron water inlet pipe 21 is connected with obverse water inlet pipe bleeder 35 by sebific duct, and magnetron outlet pipe 22 is connected with obverse outlet pipe bleeder 37; Upper end slot steel frame 11 top is provided with hanger 10.

By reference to the accompanying drawings the specific embodiment of the present invention is explained in detail above, but the present invention is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from present inventive concept.

Claims

1. the vertical reactor of HIGH-POWERED MICROWAVES, is characterized in that: comprise external microwave cavity pipe interior with the reaction being built in external microwave cavity;

In the described reaction being built in external microwave cavity, pipe comprises the interior pipe tubule flange (1) connected successively from top to bottom, interior pipe upper end tubule (8), container boss (20), container body (32), slope, interior pipe lower end (7), interior pipe lower end tubule (19) and interior pipe tubule flange (1), container body (32) outside is provided with container floor, and slope (7) side, interior pipe lower end is provided with residual liquid discharge port (29);

Described external microwave cavity forms positive heptagon by 7 blocks of cavity plates, cavity plate (15) two parts that this external microwave cavity is divided into microwave cavity outer cover to be connected with microwave cavity outer cover by cavity rib of slab plate (14) with both sides from outside to inside, this external microwave cavity is from top to bottom by upper end slot steel frame (11), middle part link slot steel frame (5), lower end chan frame (6) is divided into three parts, external microwave cavity is provided with heating using microwave part, aeration portion, recirculated water part, cover ripple part, heating using microwave part comprises afferent echo hole (12), waveguide fixing hole (23), waveguide (4) and magnetron (13), each face on cavity plate (15) arranges some afferent echo holes (12), each afferent echo hole (12) is provided with some waveguide fixing holes (23), the upper installation waveguide (4) of each afferent echo hole (12) and magnetron (13),

Described 7 pieces of enterprising wave holes of cavity plate (12) be specifically distributed as 3 classes: the first kind, cavity plate there are 3 row afferent echo holes (12), often arrange 7 afferent echo holes (12) spaced apart in length and breadth, wherein first afferent echo hole (12) of two edge row is laterally, and first afferent echo hole (12) of middle column is longitudinally; Equations of The Second Kind, cavity plate there are 3 row afferent echo holes (12), wherein the afferent echo hole (12) of two edge row distributes completely the same, there is the afferent echo hole (12) that 7 spaced apart in length and breadth, first, both sides afferent echo hole (12) is longitudinally, 6 afferent echo holes (12) spaced apart are in length and breadth shown in centre, and middle first afferent echo hole (12) is laterally; 3rd class, cavity plate there are 3 row afferent echo holes (12), the 3 enterprising wave hole of row (12) are spaced apart in length and breadth, one shows 6 afferent echo holes (12), middle column shows 7 afferent echo holes (12) with another, and wherein first afferent echo hole (12) of left-hand column and middle column is longitudinally, and first afferent echo hole (12) of right-hand column is laterally, in seven blocks of cavity plates, the first six block is that the first kind and Equations of The Second Kind are alternately arranged, and last block is the 3rd class arrangement; Cover ripple part and cover ripple bucket (2) for exposed portion when pipe is placed in external microwave cavity in reaction is provided with.

2. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 1, is characterized in that: described microwave cavity outer cover is provided with some microwave cavity doors (3), and microwave cavity door (3) is provided with auxiliary air inlet (26).

3. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 1, is characterized in that: described upper end slot steel frame (11) top is provided with cavity top board (28), and lower end chan frame (6) bottom is provided with well floor (27).

4. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 1, is characterized in that: described upper end slot steel frame (11) end face is provided with main fresh air inlet (24), and upper end slot steel frame (11) side is provided with exhaust vent (25).

5. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 2, it is characterized in that: described recirculated water part comprises water inlet manifold (16), total outlet pipe (17), water inlet pipe bleeder (35), inlet pipe elbow (36), outlet pipe bleeder (37) and outlet pipe elbow (38), well floor (27) is provided with water inlet manifold (16), total outlet pipe (17), lower end chan frame (6) upper surface is provided with two pipelines around external microwave cavity, one of them pipeline connects water inlet manifold (16), another pipeline connects total outlet pipe (17), two pipelines are by inlet pipe elbow (36), outlet pipe elbow (38) respectively connects a water inlet pipe bleeder (35) and outlet pipe bleeder (37) at each of outside microwave cavity.

6. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 5, it is characterized in that: described magnetron (13) is provided with magnetron water inlet pipe (21) and magnetron outlet pipe (22), magnetron water inlet pipe (21) is connected with obverse water inlet pipe bleeder (35) by sebific duct, and magnetron outlet pipe (22) is connected with obverse outlet pipe bleeder (37).

7. the vertical reactor of HIGH-POWERED MICROWAVES according to claim 5, is characterized in that: described upper end slot steel frame (11) top is provided with hanger (10).