CN204619924U - A kind of graphite reactor still wall heat transfer mechanism - Google Patents

Abstract

The utility model discloses a kind of graphite reactor still wall heat transfer mechanism, comprise reactor body, the kettle chuck of pipe structure is provided with in the still wall of described reactor body, described kettle chuck is communicated with the water inlet circle being located at described still wall outside, described kettle chuck and the described joint enclosed of intaking are provided with adapter circle holding, be provided with adapter stiffening ring outside described adapter circle holding, the outer end of described water inlet circle is also provided with adapter steel part circle holding.The utility model original graphite reactor still wall construction improves, kettle chuck is arranged in still wall, and then solves the problem because of dipping thickness deficiency reduction integral device compressive resistance, and greatly reduce heat transfer wall thickness, increase heat-transfer effect, also reduce the weight of graphite simultaneously.Water inlet circle is provided with graphite circle holding with the junction of kettle simultaneously, thus solves the problem of seepage.

Description

A kind of graphite reactor still wall heat transfer mechanism

Technical field

The utility model relates to a kind of graphite reactor structure-improved, is specifically related to a kind of still wall heat transfer mechanism of large-scale graphite reactor.

Background technology

When designing large-scale graphite reactor, if according to design the earliest, being about to the outside that heat transfer kettle chuck is located at still wall, carrying out heat transfer.But along with the continuous amplification of reactor diameter, the calculated wall thickness of cylindrical shell increases gradually, and then increase the weight of graphite equipment, net weight has reached 25 tons, and operating weight reaches more than 30 tons, bring great difficulty, in diabatic process to transport and installation, because increasing heat transfer wall thickness, the heat-transfer effect of chuck medium also can be greatly reduced.And graphite wall thickness thickeies to a certain degree, also because of the restriction of dipping thickness, integral device compressive resistance can be affected.

Utility model content

Utility model object: the purpose of this utility model is to solve deficiency of the prior art, thering is provided a kind of is arranged in still wall by kettle chuck, and then the problem solved because of dipping thickness deficiency reduction integral device compressive resistance, and greatly reduce heat transfer wall thickness, increase heat-transfer effect, also reduce the graphite reactor still wall heat transfer mechanism of the weight of graphite simultaneously.

Technical scheme: a kind of graphite reactor still wall heat transfer mechanism described in the utility model, comprise reactor body, the kettle chuck of pipe structure is provided with in the still wall of described reactor body, described kettle chuck is communicated with the water inlet circle being located at described still wall outside, described kettle chuck and the described joint enclosed of intaking are provided with adapter circle holding, be provided with adapter stiffening ring outside described adapter circle holding, the outer end of described water inlet circle is also provided with adapter steel part circle holding.

As optimization, described kettle chuck adopts impregnated graphite structure.

As optimization, described adapter circle holding and adapter stiffening ring are graphite-structure.

As optimization, described adapter steel part circle holding adopts Q235B carbon steel structure.

As optimization, the distance range of described kettle chuck distance kettle outer wall is 110-130mm, and distance inner wall of kettle distance is 40-60mm.

Beneficial effect: the utility model original graphite reactor still wall construction improves, kettle chuck is arranged in still wall, and then the problem solved because of dipping thickness deficiency reduction integral device compressive resistance, and greatly reduce heat transfer wall thickness, increase heat-transfer effect, also reduce the weight of graphite simultaneously.Water inlet circle is provided with graphite circle holding with the junction of kettle simultaneously, thus solves the problem of seepage.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is kettle structure schematic diagram of the prior art.

Detailed description of the invention

A kind of graphite reactor still wall heat transfer mechanism as shown in Figure 1, comprise reactor body 1, the kettle chuck 5 of pipe structure is provided with in the still wall of described reactor body 1, described kettle chuck 5 is communicated with the water inlet circle 6 being located at described still wall outside, described kettle chuck 5 is provided with adapter circle holding 2 with the joint of described water inlet circle 6, be provided with adapter stiffening ring 3 outside described adapter circle holding 2, the outer end of described water inlet circle 6 is also provided with adapter steel part circle holding 4.

As the further optimization of technique scheme, described kettle chuck 5 adopts impregnated graphite structure.Described adapter circle holding 2 and adapter stiffening ring 3 are graphite-structure.Described adapter steel part circle holding 4 adopts Q235B carbon steel structure.Described kettle chuck 5 is 110-130mm apart from the distance range of kettle outer wall, is preferably 120mm, and distance inner wall of kettle distance is 40-60mm, and be preferably 50mm, radiating effect is better.

Be illustrated in figure 2 the heat transfer structure before improvement, outside still wall kettle chuck 5 being located at reactor body 1, but this design is along with the continuous amplification of reactor diameter, and the calculated wall thickness of cylindrical shell increases gradually, and then increase the weight of graphite equipment, net weight has reached 25 tons, and operating weight reaches more than 30 tons, bring great difficulty, in diabatic process to transport and installation, because increasing heat transfer wall thickness, the heat-transfer effect of chuck medium also can be greatly reduced.And graphite wall thickness thickeies to a certain degree, also because of the restriction of dipping thickness, integral device compressive resistance can be affected.

Afterwards above-mentioned heat transfer structure was improved, structure and the utility model similar, but adopt 0 type circle holding unlike circle holding, graphite reactor is in use intermittent operation, passes into emptying after steam a period of time, pass through cooling circulating water in chuck, so repeatedly operate, the tetrafluoro O type circle of water inlet circle sealing place is in the process of rising-heat contracting-cold repeatedly, and distortion allowance reduces, and easily causes seepage.

Therefore again final improvement has been carried out to said structure, i.e. the utility model application content.By cloth hole even in the middle of the graphite kettle thickeied, in guarantee, the hole of lower kettle cloth is concentric, and utilize this some holes to become the housing parts of our jacket for heat exchange, and then the problem solved because of dipping thickness deficiency reduction integral device compressive resistance, and greatly reduce heat transfer wall thickness, increase heat-transfer effect, also reduce the weight of graphite simultaneously.

(gas) circle of simultaneously intaking changes full graphite into, steel part stiffening ring carries out outsourcing and tightens up abutting edge into water circle and kettle, and then solve the problem of O type circle, simultaneously all housing jacket portion are graphite piece, the hole wall dirt caused after steam and cooling water circulation use, when equipment does not need dismounting, can be cleaned by Chemical cleaning way, add the service life of equipment.

Claims (5)

1. a graphite reactor still wall heat transfer mechanism, comprise reactor body (1), it is characterized in that: the kettle chuck (5) being provided with pipe structure in the still wall of described reactor body (1), described kettle chuck (5) is communicated with the water inlet circle (6) being located at described still wall outside, described kettle chuck (5) and the described joint enclosing (6) of intaking are provided with adapter circle holding (2), described adapter circle holding (2) outside is provided with adapter stiffening ring (3), and the outer end of described water inlet circle (6) is also provided with adapter steel part circle holding (4).

2. a kind of graphite reactor still wall heat transfer mechanism according to claim 1, is characterized in that: described kettle chuck (5) adopts impregnated graphite structure.

3. a kind of graphite reactor still wall heat transfer mechanism according to claim 1, is characterized in that: described adapter circle holding (2) and adapter stiffening ring (3) are graphite-structure.

4. a kind of graphite reactor still wall heat transfer mechanism according to claim 1, is characterized in that: described adapter steel part circle holding (4) adopts Q235B carbon steel structure.

5. a kind of graphite reactor still wall heat transfer mechanism according to claim 1, is characterized in that: the distance range of described kettle chuck (5) distance kettle outer wall is 110-130mm, and distance inner wall of kettle distance is 40-60mm.