CN202216611U - Low temperature corrosion-resistant gas-liquid type heat exchanger - Google Patents

Abstract

The utility model discloses a low temperature corrosion-resistant gas-liquid type heat exchanger, comprising a cooling section housing and a heating section housing, wherein the cooling section housing and the heating section housing are connected into a whole body up and down and are divided by a clapboard from the middle; the cooling section housing is arranged above the heating section housing; a plurality of heat pipes are arranged on the clapboard; a fin is arranged on the surface of each heat pipe in the heating section housing; and a smooth enamel layer is sintered on the surface of each heat pipe in the heating section housing and the surface of the fin. The smooth enamel layer is sintered at each heat pipe and on the surface of the fin of each heat pipe which are contacted with the sulfur-containing smoke, so that the problem that the heat exchange surface is corroded by the low temperature in the flue gas waste heat recovery of the existing boiler can be overcome due to the acid corrosion-resistant characteristic of the enamel material; the heat exchange surface of each heat pipe has the advantages of being acid-resistant, wear-resistant, hard to accumulate ash and long in service life due to the characteristic that the surface of the smooth enamel layer is hard to bond the fly ash and wear-resistant; and the sintering of the enamel layer is also easy to popularize and use, so that the heat exchanger has an important practical meaning under the current situation of energy conservation and emission reduction.

Description

A kind of gas liquid type heat exchanger of low temperature resistant corrosion

Technical field

The utility model relates to the economizer field that is used for the boiler low-temperature fume waste heat recovery, and in particular, what improvement related to is a kind of gas liquid type heat exchanger of low temperature resistant corrosion.

Background technology

In the flue gas waste heat recovery of boiler, generally adopt economizer to improve the thermal efficiency of thermal hardware.Economizer is a kind of heat exchanger that typically utilizes hot fluid flue gas heating cold fluid water.Extensive use carbon steel pipe gas liquid type heat exchanger is as economizer at present.

But the heat exchanger of prior art life-span in fire coal, the waste heat recovery of oil burning boiler low-temperature flue gas is shorter.Tracing it to its cause is because mostly contain the sulphur composition in coal-fired, the fuel oil, and the sulphur composition in coal-fired, the fuel oil can shape be given birth to sulfur dioxide after burning; The sulfur dioxide generation sulfur trioxide that can react with the oxygen in the combustion product of a part, and will become sulfuric acid vapor when sulfur trioxide combines with steam in the flue gas.

If when the heat-transfer surface of heat exchanger was lower than acid dew-point temperature in the flue gas, the sulfuric acid vapor in the flue gas will condense into liquid on the heat-transfer surface of heat exchanger, then cause the heavy corrosion to the carbon steel heat-transfer pipe.

In addition, the sulfate liquid that condenses on the heat-transfer surface also adheres to the flying dust in the flue gas easily, and finally causes the obstruction of heat-transfer pipe.Acid corrosion adds the interaction that ash is stifled, causes economizer to lose efficacy very soon, badly influences the economic security operation of boiler.

It is thus clear that current under the situation of energy-saving and emission-reduction, exploitation is applicable to that the gas liquid type heat exchanger of low-temperature flue gas waste heat recovery will be significant.

Therefore, prior art still haves much room for improvement and develops.

The utility model content

The purpose of the utility model is; A kind of gas liquid type heat exchanger of low temperature resistant corrosion is provided; Can overcome the cold end corrosion heat-transfer surface problem that exists in the present residual heat from boiler fume recovery, have characteristics acidproof, wear-resisting, that be difficult for dust stratification, long service life and be easy to apply.

The technical scheme of the utility model is following: a kind of gas liquid type heat exchanger of low temperature resistant corrosion comprises fusing up and down and by therefrom isolated cooling section housing of dividing plate and bringing-up section housing; The cooling section housing is positioned at the top of bringing-up section housing; Dividing plate is provided with many heat pipes; The heat pipe surface that is positioned at the bringing-up section enclosure interior is provided with fin; Wherein: equal sintering has the smooth enamel layer of one deck on the surface of heat pipe surface that is positioned at the bringing-up section enclosure interior and fin thereof.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: fin is spaced along the axially parallel of heat pipe and is arranged on the heat pipe surface ringwise.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: close-fitting has the heat pipe sealing ring between the dividing plate of heat pipe outer wall and cooling section housing one side.

In the dividing plate of heat pipe sealing ring bottom surface, be inlaid with the acidproof packing ring that tightly is enclosed within on the heat pipe outer wall.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: the baffle surface in the bringing-up section case top is coated with one deck first acid resistant adhesive mortar layer.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: on the diapire of bringing-up section housing, be coated with one deck second acid resistant adhesive mortar layer.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: on the inwall of bringing-up section housing, be coated with one deck second acid resistant adhesive mortar layer.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: the thickness of enamel layer is set to 0.4 ± 0.1mm; The thickness of the first acid resistant adhesive mortar layer and the second acid resistant adhesive mortar layer all is set to 30 ± 5mm.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: be provided with the runner dividing plate that heat pipe is separated in the cooling section enclosure interior; The runner dividing plate is provided with gap or through hole.

The gas liquid type heat exchanger of described low temperature resistant corrosion, wherein: be provided with the leakage fluid dram that is used to discharge acid solution in the bottom of bringing-up section housing.

The gas liquid type heat exchanger of a kind of low temperature resistant corrosion that the utility model provided; Owing to the smooth enamel layer of one deck is being arranged with contacted heat pipe of sulfur-containing smoke gas and fin surface sintering thereof; Utilize the characteristic of enamel material acid corrosion-resistant, overcome the cold end corrosion heat-transfer surface problem that exists in the present residual heat from boiler fume recovery; And utilize smooth enamel layer surface to be difficult for bonding flying dust and wear-resisting characteristics, thereby make the heat-transfer surface of heat pipe have acidproof, wear-resisting, as to be difficult for dust stratification and long service life advantage; And the sintering of enamel layer also is easy to promotion and application, and adaptable across boiler low-temperature fume waste heat recovery occasion, effects of energy saving and emission reduction is obvious, under the situation of current energy-saving and emission-reduction, has great practice significance.

Description of drawings

Fig. 1 is the internal structure schematic diagram of the gas liquid type heat exchanger of a kind of low temperature resistant corrosion of the utility model.

The specific embodiment

Below will combine accompanying drawing, the specific embodiment and the embodiment of the utility model specified, described specific embodiment in order to explain the utility model, is not the specific embodiment that is used to limit the utility model only.

The gas liquid type heat exchanger of a kind of low temperature resistant corrosion of the utility model, one of its specific embodiment, as shown in Figure 1, comprise the cooling section housing 4 and bringing-up section housing 2 that are provided with up and down and fuse; Cooling section housing 4 is positioned at the top of bringing-up section housing 2; Be provided with a dividing plate 3 in cooling section housing 4 and bringing-up section housing 2 intermediate lateral, be used for the inner space of cooling section housing 4 and the inner space of bringing-up section housing 2 are kept apart each other; On dividing plate 3, be vertically arranged with the pencil heat pipe that many parallel interval are arranged; Every one whole siphunculus that heat pipe is made up of cooling section 5 and bringing-up section 1, but the siphunculus set inside has the working medium of gas-liquid conversion; The cooling section 5 of heat pipe is set to light pipe, and fin is not set, and is positioned at cooling section housing 4 inside; Bringing-up section 1 surface of heat pipe is connected with fin, is positioned at bringing-up section housing 2 inside; Wherein, equal sintering has the smooth enamel layer of one deck on the surface of heat pipe bringing-up section 1 surface that is positioned at bringing-up section housing 2 inside and fin thereof.Since enamel layer be sintering on heat pipe bringing-up section 1 surface and fin surface thereof, therefore except having corrosion resistant characteristics, also have the characteristics of the solid difficult drop-off of strong adhesion.

Concrete, be provided with cold water water inlet 14 in a side of cooling section housing 4, be used to connect cold water pipe, need the cold water that heats, cold water water inlet 14 can be arranged on cooling section housing 4 sidewalls position with introducings near dividing plate 3; The cold water that temperature is lower circulates in cooling section housing 4; Carry out heat exchange with the surface of heat pipe cooling section 5 in it, be arranged in the higher fluid media (medium) of cooling section housing 4 part heat pipe cooling section 5 temperature and conduct heat to this heat pipe cooling section 5 outer lower fluid media (medium)s of temperature that become afterwards; Cold water in cooling section housing 4 inner spaces becomes the higher hot water of temperature with contacting of heat pipe cooling section 5 tube walls; Enter into the heat pipe bringing-up section 1 that is arranged in bringing-up section housing 2 parts by gravity reflux and become liquid condition by steam condition after the working medium heat release in this heat pipe cooling section 5; Opposite side at cooling section housing 4 is provided with hot water outlet 15, is used to connect hot-water line, and to draw heated hot water, hot water outlet 15 can be arranged on the sidewall near cooling section housing 4 end faces.

Concrete, be provided with smoke inlet 12 in a side of bringing-up section housing 2, be used to be communicated with the flue gas input channel, to import the flue gas that the waste gas that produces after fire coal, the oil inflame is sulfur-bearing, the bore of smoke inlet 12 should not be too little, to avoid the flow of flue gas resistance excessive; The higher sulfur-containing smoke gas of temperature is through bringing-up section housing 2 inner spaces the time; Carry out heat exchange with finned heat pipe bringing-up section 1; The higher flue gas of temperature becomes the lower flue gas of temperature after conducting heat in this heat pipe bringing-up section 1 in bringing-up section housing 2 inner spaces, and the working medium heat absorption back in this heat pipe bringing-up section 1 becomes the steam condition ascension by liquid condition and enters into the heat pipe cooling section 5 that is arranged in cooling section housing 4 parts; Opposite side at bringing-up section housing 2 is provided with exhanst gas outlet 13, is used to connect the flue gas output channel, with the lower flue gas of temperature after the process heat exchange in the output bringing-up section housing 2.

In the preferred implementation of the utility model gas liquid type heat exchanger, can be arranged between 0.2 ~ 0.6mm being positioned at the enamel layer thickness range that inner heat pipe bringing-up section 1 of bringing-up section housing 2 and fin surface sintering thereof form.When the enamel layer thickness that goes out when sintering is too thin,, after expanding with heat and contract with cold repeatedly, is prone to crackle even comes off though can make the heat transfer efficiency loss of heat pipe bringing-up section 1 less; And the enamel layer thickness that sintering goes out is when too thick, although be not prone to crackle even come off, but greatly reduces the heat transfer efficiency of heat pipe bringing-up section 1; Preferably, the enamel layer thickness that sintering goes out is 0.4 ± 0.1mm, neither is prone to segmentation crack and also can make the too many heat transfer efficiency of heat pipe bringing-up section 1 loss; Show that through practical test result the smooth enamel layer of 0.4mm thickness only makes the heat pipe of its covering reduce about 5% heat transfer efficiency.

Further, be arranged on heat pipe bringing-up section 1 lip-deep fin ringwise, and be spaced setting along the axially parallel of heat pipe 1.

Further, close-fitting has heat pipe sealing ring 6 between the dividing plate 3 of heat pipe 5 outer walls and cooling section housing 4 one sides; In the dividing plate 3 of heat pipe sealing ring 6 bottom surfaces, be inlaid with the acidproof packing ring 7 that tightly is enclosed within on heat pipe cooling section 5 outer walls.Heat pipe sealing ring 6 is used for seal cooling section housing 4 and bringing-up section housing 2, and acidproof packing ring 7 is used to prevent that the sulfuric acid vapors in the cooling section housing 4 from condensing in heat pipe sealing ring 6 places and the corrosion that causes.Wherein, said acidproof packing ring 7 preferred acid corrosion-resistant performances polytetrafluoroethylene gasket preferably.

Further, dividing plate 3 surfaces coated at bringing-up section housing 2 tops are covered with one deck first acid resistant adhesive mortar layer 8; The corrosion that is used to prevent sulfuric acid vapors in the cooling section housing 4 from condensing in dividing plate 3 surfaces and causes.On the diapire of bringing-up section housing 2, be coated with one deck second acid resistant adhesive mortar layer 9; Perhaps, on the inwall of whole bringing-up section housing 2, all be coated with one deck second acid resistant adhesive mortar layer 9, can be used for all preventing that sulfuric acid vapors in the cooling section housing 4 from condensing in cooling section housing 4 surfaces and the corrosion that causes, and the latter's protection effect can be better.

Bringing-up section housing 2 inner heat pipe bringing-up sections 1 can adopt the measure of whole extension enamel to improve its corrosion resistance with fin; But because the volume of bringing-up section housing 2 is very big; All hang enamel at bringing-up section housing 2 inwalls and handle and on technology, to realize difficultly, and cost is high, and therefore only bringing-up section housing 2 inner heat pipe bringing-up sections 1 are hung enamel with fins and handled; And adopt the coating acid resistant adhesive mortar to handle at bringing-up section housing 2 inwalls or diapire; Can improve whole acidproof degree, also realize easily on the technology, and cost be low, cost is low.

Be preferably, the thickness range of the first acid resistant adhesive mortar layer 8 and/or the second acid resistant adhesive mortar layer 9 can be arranged between 20 ~ 40mm, preferred 30 ± 5mm.Then do not have etch-proof effect if the thickness of acid resistant adhesive mortar layer is too thin, if the too thick inner space that then dwindles bringing-up section housing 2 of thickness of acid resistant adhesive mortar layer.

In addition, if adopt the coating acid resistant adhesive mortar at heat pipe bringing-up section 1 and fin outer surface, because of the 30mm thickness of acid resistant adhesive mortar is thicker, the 0.4mm thickness of the enamel layer of comparing, the acid resistant adhesive mortar layer has influenced the heat conductivility of heat pipe, and also comes off easily.Be used for anticorrosively and apply acid resistant adhesive mortar in heat pipe sealing ring 6 bottoms, compare and adopt acidproof polytetrafluoroethylene gasket 7, then polytetrafluoroethylene gasket 7 also has withstand voltage function.

Further, axially be provided with the runner dividing plate 11 that heat pipe cooling section 5 is separated along heat pipe cooling section 5 in cooling section housing 4 inside; Runner dividing plate 11 is provided with gap or through hole; Be used to accelerate the flow velocity of cooling section housing 4 inner cold water and hot water, to improve heat exchange performance.Flow velocity is high more, and heat-transfer effect is just good more.

Further, be provided with the leakage fluid dram 10 that is used to discharge acid solution in the bottom of bringing-up section housing 2.Different with prior art is that prior art does not have acid solution and occurs because of not being used for low temperature; And the gas liquid type heat exchanger of the utility model has adopted above corrosion-resistant measure; Can be used for the waste heat recovery of low-temperature flue gas, when the temperature of sulfur-containing smoke gas was lower than acid dew point, sulfur-containing smoke gas will condense and gather the formation acid solution; Therefore adopting leakage fluid dram 10 can acid solution be got rid of, also is a measure that improves corrosion resistance.Can be used for various recuperation of heat or the heat exchange occasions that contain corrosive gas.

Tail flue gas waste heat recovery with a 6t/h Industrial Boiler is an example, and the gas liquid type heat exchanger that adopts the utility model is as economizer, and as shown in Figure 1, heat pipe cooling section 5 external diameters in the economizer are set to 25mm; Heat pipe bringing-up section 1 surface in the bringing-up section housing 2 is welded with ring fin, and the height of fin is set to 12.5mm; Heat pipe bringing-up section 1 length in the bringing-up section housing 2 is set to 870mm; Heat pipe cooling section 5 length in the cooling section housing 4 are set to 380mm; 120 heat pipe bringing-up sections 1 that have enamel are installed altogether; Sintering is provided with 0.4mm at the thickness of heat pipe bringing-up section 1 and fin enameling layer thereof; Heat exchanger median septum 3 bottoms and the thick acid resistant adhesive mortar layer of fume side bringing-up section housing 2 internal coat 30mm.

The mensuration flow of low-temperature flue gas is 6475kg/h; The temperature at smoke inlet place is 200 ℃; The temperature of smoke outlet is 100 ℃; The temperature at cold water inlet place is 20 ℃; Hot water exit's temperature is 60 ℃; Can know that through converting the waste heat recovery amount is 200KW.

Compare with gas liquid type heat exchanger of the prior art; The gas liquid type heat exchanger of a kind of low temperature resistant corrosion that the utility model provided; Owing to the smooth enamel layer of one deck is being arranged with contacted heat pipe of sulfur-containing smoke gas and fin surface sintering thereof; Utilize the characteristic of enamel material acid corrosion-resistant, overcome the cold end corrosion heat-transfer surface problem that exists in the present residual heat from boiler fume recovery; And utilize smooth enamel layer surface to be difficult for bonding flying dust and wear-resisting characteristics, thereby make the heat-transfer surface of heat pipe have acidproof, wear-resisting, as to be difficult for dust stratification and life-span length advantage; And the sintering of enamel layer also is easy to promotion and application, and adaptable across boiler low-temperature fume waste heat recovery occasion, effects of energy saving and emission reduction is obvious, under the situation of current energy-saving and emission-reduction, has great practice significance.

Should be understood that; The preferred embodiment that the above is merely the utility model is not sufficient to limit the technical scheme of the utility model, concerning those of ordinary skills; Within the spirit and principle of the utility model; Can increase and decrease according to above-mentioned explanation, replacement, conversion or improvement, and all these increases and decreases, replacement, conversion or improve after technical scheme, all should belong to the protection domain of the utility model accompanying claims.

Claims (10)

1. the gas liquid type heat exchanger of a low temperature resistant corrosion comprises fusing up and down and by therefrom isolated cooling section housing of dividing plate and bringing-up section housing; The cooling section housing is positioned at the top of bringing-up section housing; Dividing plate is provided with many heat pipes; The heat pipe surface that is positioned at the bringing-up section enclosure interior is provided with fin; It is characterized in that: equal sintering has the smooth enamel layer of one deck on the surface of heat pipe surface that is positioned at the bringing-up section enclosure interior and fin thereof.

2. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 1 is characterized in that: fin is spaced along the axially parallel of heat pipe and is arranged on the heat pipe surface ringwise.

3. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 1, it is characterized in that: close-fitting has the heat pipe sealing ring between the dividing plate of heat pipe outer wall and cooling section housing one side.

4. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 3 is characterized in that: in the dividing plate of heat pipe sealing ring bottom surface, be inlaid with the acidproof packing ring that tightly is enclosed within on the heat pipe outer wall.

5. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 1, it is characterized in that: the baffle surface in the bringing-up section case top is coated with one deck first acid resistant adhesive mortar layer.

6. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 5 is characterized in that: on the diapire of bringing-up section housing, be coated with one deck second acid resistant adhesive mortar layer.

7. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 5 is characterized in that: on the inwall of bringing-up section housing, be coated with one deck second acid resistant adhesive mortar layer.

8. according to the gas liquid type heat exchanger of claim 6 or 7 described low temperature resistant corrosion, it is characterized in that: the thickness of enamel layer is set to 0.4 ± 0.1mm; The thickness of the first acid resistant adhesive mortar layer and the second acid resistant adhesive mortar layer all is set to 30 ± 5mm.

9. the gas liquid type heat exchanger of low temperature resistant corrosion according to claim 1 is characterized in that: be provided with the runner dividing plate that heat pipe is separated in the cooling section enclosure interior; The runner dividing plate is provided with gap or through hole.

10. according to the gas liquid type heat exchanger of arbitrary described low temperature resistant corrosion in the claim 1 to 7, it is characterized in that: be provided with the leakage fluid dram that is used to discharge acid solution in the bottom of bringing-up section housing.

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