CN203976413U - Efficient vertical pipe type activation furnace - Google Patents

Abstract

The utility model discloses a kind of efficient vertical pipe type activation furnace, relate to a kind of activation furnace field.The utility model solves that current vertical activation furnace laid down cost is high, energy consumption is large and the problem such as maintenance cost is high.On the cover plate of this efficient vertical pipe type activation furnace, be fixed with many carrier pipes, the equidistant vapour pipe that is provided with of a side of body of heater; The side alternating expression that inboard wall of furnace body is relative arranges air-flow division plate, in body of heater, be provided with the standpipe of many high temperature resistant stainless steels, the both sides of every standpipe are equidistant is provided with excessive tracheae, and every standpipe is equidistant to be communicated with vapour pipe, and the lower end of tremie pipe is fixed with activity blanking hush panel.Use that the utility model is simple in structure, laid down cost is low, igniting and the truce cycle is short, energy consumption is few, durable in use and easy to maintenance.

Description

Efficient vertical pipe type activation furnace

Technical field

The utility model relates to a kind of activation furnace field, particularly relates to a kind of efficient vertical pipe type activation furnace.

Background technology

Gac, as sorbent material, has very flourishing internal pore structure and larger specific surface area, is mainly used in the fields such as chemical industry, food, medicine, military affairs and environment protection.In producing the equipment of gac, activation furnace is one of very crucial equipment, and the activation furnace that people use is generally horizontal rotary activation furnace and the large class of vertical activation furnace two.Along with country is more and more higher to environmental protection requirement; particularly gac makes the demand of gac increasingly to the processing of trade effluent, municipal effluent and thermal power generation flue gas, and this class is normally produced by vertical activation furnace the little low index gac of the needed adsorptive capacity of environment protection.As producing vertical activation furnace, generally claim again Stepple furnace, because the refractory brick of its activation zone is saddle-shape, therefore claim again saddle stove, its main drawback is: 1, investment is large, and the cost of building a stove is 2,600,000 yuans; 2, the light-off period of new stove is long, needs the time of 20 days to 30 days; 3, the truce cycle also very long, need the time of 15 days; 4, energy consumption is large, needs the carbonized stock of 150 tons between burn period; 5, the refractory brick because of activation zone is heterotypic fire brick, and heterotypic fire brick is yielding under the high temperature of long period, and gac passage narrower in the heterotypic fire brick after distortion is also out of shape thereupon, thereby the heterotypic fire brick after distortion is scrapped; 6, changing the heterotypic fire brick being out of shape needs to remove whole Stepple furnace, therefore maintenance cost is very high; 7, build the complex process of saddle stove, because piling up between the heterotypic fire brick that highly reaches 10 meters, need the higher precision of maintenance, so consuming time, need to reach six months.

In addition, Chinese invention patent specification sheets discloses a kind of " external heating vertical active carbon activation furnace " (notification number CN101475166A on January 21st, 2009, application number 200910009778.8), its feature has: between inner core (16) and furnace wall (15), be provided with urceolus (13), the lower end of this urceolus (13) is connected with step-down gear, motor (19) by transmitting gear (18); Urceolus flight (4) and inner core flight (5) are in spiral distribution on the downside of urceolus hot-plate (3) and inner core hot-plate (6) respectively.This activation furnace Shortcomings part is: urceolus and inner core all reach in the situation of height of 6 to 7 meters and need to keep more than 800 ℃ high temperature for a long time, especially urceolus and urceolus flight need continuous rotation under driven by motor, therefore this external heating vertical active carbon activation furnace is very easy to cause urceolus and urceolus flight and inner core flight because at high temperature gyrating, to occur distortion or the fracture of urceolus and urceolus flight and inner core flight in the process that gac is activated, so scrap with regard to there will be urceolus and urceolus flight and the distortion of inner core flight or fracture after this external heating vertical active carbon activation furnace is constructed and put into operation, thereby cause Activated Carbon Production enterprise to build the massive losses of stove investment.

Utility model content

The purpose of this utility model is in order to overcome deficiency of the prior art, provide a kind of simple in structure, laid down cost is low, igniting and the truce cycle is short, energy consumption is few, durable in use and easy to maintenance efficient vertical pipe type activation furnace.

For achieving the above object, the utility model provides a kind of efficient vertical pipe type activation furnace, described activation furnace comprises carrier pipe, vapour pipe, body of heater and combustion chamber, in combustion chamber, be provided with and accompany airduct, body of heater upper end is provided with suction opening, the body of wall internal layer of described body of heater periphery and wall external layer are respectively fire brick layer and common brick wall layer, and the cover plate of described body of heater upper end for being sealed to form by refractory brick, is fixed with many carrier pipes on cover plate; The equidistant thermometer hole that is provided with outside described body of heater, the equidistant vapour pipe that is provided with of a side of body of heater; The side alternating expression that described inboard wall of furnace body is relative arranges air-flow division plate, air-flow division plate three sides and inboard wall of furnace body are fixed, another side of air-flow division plate is provided with gap with relative inboard wall of furnace body, is provided with the standpipe hole that a plurality of standpipes pass on air-flow division plate; In described body of heater, be provided with the standpipe of many high temperature resistant stainless steels, the upper end of every standpipe is socketed with carrier pipe, and the both sides of every standpipe are equidistant is provided with excessive tracheae, and every standpipe is equidistant to be communicated with vapour pipe; The lower end of described body of heater is provided with discharge tray, is fixed with many tremie pipes on discharge tray; The upper end of described tremie pipe and standpipe socket, the lower end of tremie pipe is fixed with activity blanking hush panel.

Described body of heater inner chamber cross section is positive square, and the length of side of body of heater inner chamber is 1.6 meters, and body of heater is high 7.5 meters; In body of heater, be provided with 48 standpipes.

The length of described standpipe is 6.1 meters, and the internal diameter of standpipe is 10 centimetres; The dual-side of every standpipe arranges excessive tracheae every 1 meter, on every standpipe, every 1 meter, is communicated with vapour pipe.

Described body of heater outer side edges arranges thermometer hole every 1 meter, and a side of body of heater arranges vapour pipe every 1 meter.

Described air-flow division plate is 10 centimetres with the clearance distance of relative inboard wall of furnace body.

Described activity blanking hush panel is eccentric disk, and the amount of stressing that activity blanking hush panel is positioned at tremie pipe lower end is less than the weight with respect to tremie pipe lower end opposite side.

The utility model beneficial effect is: efficient vertical pipe type activation furnace of the present utility model is simple in structure, installs easily, easy to operate; Invest little, because heterotypic fire brick price is high, make saddle stove heterotypic fire brick materials cost used just up to more than 50 ten thousand yuan, 3.8 ten thousand yuan of 309S high temperature resistant stainless steel materials cost per ton that the utility model is used are more than 10 ten thousand yuan, thereby the laid down cost that makes whole activation furnace is more than 20 ten thousand yuan, the cost of whole stove is more much lower than required more than 200 ten thousand yuan of saddle stove; The light-off period of new stove is short, only needs 3 day time just can successfully temperature in stove be raised to specified standards; The truce cycle is also very short, only needs the time of 1 day just can in time temperature in stove be fallen; Energy consumption is low, only need the carbonized stock of 2 to 3 tons, and the saddle furnace igniting phase needs 150 tons of carbonized stock between burn period; Therefore because of the diameter of every standpipe self is less and be by resistant to elevated temperatures stainless material, made not yielding, so neither affect gac operation from top to bottom in standpipe because even standpipe is vertical state a part distortion in activation furnace, also can not cause the distortion of other standpipe, if the serious damage of certain root standpipe in addition, changes also very convenient, therefore the application of standpipe greatly reduces frequency of maintenance and the maintenance difficulty of whole activation furnace with respect to heterotypic fire brick, thereby has reduced the maintenance cost of activation furnace; In vertical activation furnace, use standpipe vertically to arrange, when building activation furnace, with respect to the also reduction greatly of difficulty of saddle stove, the duration can be reduced to about one month by saddle stove for six months.

Below in conjunction with accompanying drawing, efficient vertical pipe type activation furnace of the present utility model is described further.

Accompanying drawing explanation

Fig. 1 is the utility model cut-away view;

Fig. 2 is the utility model A-A cut-away view.

In figure: 1, carrier pipe, 2, combustion chamber, 3, body of heater, 4, vapour pipe, 5, cover plate, 6, fire brick layer, 7, common brick wall layer, 8, thermometer hole, 9, air-flow division plate, 10, standpipe, 11, standpipe hole, 12, tracheae overflows, 13, discharge tray, 14, tremie pipe, 15, activity blanking hush panel, 16, accompany airduct, 17, suction opening.

Embodiment

As shown in Figure 1, the efficient vertical pipe type activation furnace of the present embodiment comprises carrier pipe 1, vapour pipe 4, body of heater 3 and combustion chamber 2, in combustion chamber 2, be provided with and accompany airduct 16, body of heater 2 upper ends are provided with suction opening 17, the body of wall internal layer of body of heater 3 peripheries and wall external layer are respectively fire brick layer 6 and common brick wall layer 7, the cover plate 5 of body of heater 3 upper ends for being sealed to form by refractory brick, is fixed with many carrier pipes 1 on cover plate 5; The equidistant thermometer hole 8 that is provided with in body of heater 3 outsides, the equidistant vapour pipe 4 that is provided with of a side of body of heater 3; The standpipe 10 that is provided with many high temperature resistant stainless steels in body of heater 3, the upper end of every standpipe 10 is socketed with carrier pipe 1, the equidistant tracheae 12 that overflows that is provided with in the both sides of every standpipe 10, every standpipe 10 is equidistant to be communicated with vapour pipe 4; The lower end of body of heater 3 is provided with discharge tray 13, is fixed with many tremie pipes 14 on discharge tray 13; The upper end of described tremie pipe 14 and standpipe 10 sockets, the lower end of tremie pipe 14 is fixed with activity blanking hush panel 15.Body of heater 3 inner chamber cross sections are positive square, and the length of side of body of heater 3 inner chambers is 1.2 meters, and body of heater 3 is high 7.5 meters; In body of heater 3, be provided with 48 standpipes 10.The length of standpipe 10 is 5.1 meters, and the internal diameter of standpipe 10 is 10 centimetres; The dual-side of every standpipe 10 arranges the tracheae 12 that overflows every 1 meter, on every standpipe 10, every 1 meter, is communicated with vapour pipe 4.Body of heater 3 outer side edges arrange thermometer hole 8 every 1 meter, and a side of body of heater 3 arranges vapour pipe 4 every 1 meter.Activity blanking hush panel 15 is eccentric disk, and the amount of stressing that activity blanking hush panel 15 is positioned at tremie pipe 14 lower ends is less than the weight with respect to tremie pipe 14 lower end opposite sides.

As shown in Figure 2, the side alternating expression that body of heater 3 inwalls are relative arranges air-flow division plate 9, air-flow division plate 9 three sides and body of heater 3 inwalls are fixed, another side of air-flow division plate 9 is provided with gap with relative body of heater 3 inwalls, on air-flow division plate 9, be provided with the standpipe hole 1 that a plurality of standpipes 10 pass, air-flow division plate 9 is 10 centimetres with the clearance distance of relative body of heater 3 inwalls.

Under the suction opening of accompanying airduct 16 and top 17 effects of body of heater 3 lower combustion chamber 2 interior settings, the warm air that the interior burning in combustion chamber 2 produces is from bottom to top moved by body of heater 3 bottoms, the operation of warm air in body of heater 3 is subject in body of heater 3 from bottom to top and the air-flow division plate 9 being crisscross arranged on body of heater 3 relative body of heater 3 inwalls in inner side affects and in body of heater 3, from bottom to top makes Z-shaped track route, thereby having realized the heat that combustion chamber 2 is produced is fed on each standpipe 10 equably; Simultaneously the carbonized material in each standpipe 10 is activated and the carbon monoxide and the hydrogen that produce are also discharged in body of heater 3 chambeies by the tracheae 12 that overflows under high temperature and the interior water vapor acting of vapour pipe 4, be discharged into heat that carbon monoxide in body of heater 3 chambeies and the oxygen combustion in hydrogen and body of heater 3 chambeies produce and may further be in body of heater 3 chambeies heat is provided, thereby can guarantee better the needed hot conditions of carbonized material in standpipe 10.

Carbonized material enters the inherent temperature of standpipe 10 by carrier pipe 1 and the water vapor generation chemical reaction that can provide with vapour pipe 4 after 850 ℃ is provided and produces carbon monoxide and hydrogen, thereby the carbonized material in standpipe 10 is activated, colour-change by operator at stove observation in vitro tremie pipe 14, if the color of tremie pipe 14 is crimson look, can promotion activity blanking hush panel 15 realize blowing, when the color of tremie pipe 14 is black, stop promotion activity blanking hush panel 15 and guarantee that carbonized material is activated interior continuation of standpipe 10; Blowing again when the color of tremie pipe 14 becomes crimson look again, cycle operation.

Claims (6)

1. an efficient vertical pipe type activation furnace, described activation furnace comprises carrier pipe, vapour pipe, body of heater and combustion chamber, in combustion chamber, be provided with and accompany airduct, body of heater upper end is provided with suction opening, the body of wall internal layer of described body of heater periphery and wall external layer are respectively fire brick layer and common brick wall layer, it is characterized in that, the cover plate of described body of heater upper end for being sealed to form by refractory brick, is fixed with many carrier pipes on cover plate; The equidistant thermometer hole that is provided with outside described body of heater, the equidistant vapour pipe that is provided with of a side of body of heater; The side alternating expression that described inboard wall of furnace body is relative arranges air-flow division plate, air-flow division plate three sides and inboard wall of furnace body are fixed, another side of air-flow division plate is provided with gap with relative inboard wall of furnace body, is provided with the standpipe hole that a plurality of standpipes pass on air-flow division plate; In described body of heater, be provided with the standpipe of many high temperature resistant stainless steels, the upper end of every standpipe is socketed with carrier pipe, and the both sides of every standpipe are equidistant is provided with excessive tracheae, and every standpipe is equidistant to be communicated with vapour pipe; The lower end of described body of heater is provided with discharge tray, is fixed with many tremie pipes on discharge tray; The upper end of described tremie pipe and standpipe socket, the lower end of tremie pipe is fixed with activity blanking hush panel.

2. efficient vertical pipe type activation furnace according to claim 1, is characterized in that, described body of heater inner chamber cross section is positive square, and the length of side of body of heater inner chamber is 1.6 meters, and body of heater is high 7.5 meters; In body of heater, be provided with 48 standpipes.

3. efficient vertical pipe type activation furnace according to claim 1, is characterized in that, the length of described standpipe is 6.1 meters, and the internal diameter of standpipe is 10 centimetres; The dual-side of every standpipe arranges excessive tracheae every 1 meter, on every standpipe, every 1 meter, is communicated with vapour pipe.

4. efficient vertical pipe type activation furnace according to claim 1, is characterized in that, described body of heater outer side edges arranges thermometer hole every 1 meter, and a side of body of heater arranges vapour pipe every 1 meter.

5. efficient vertical pipe type activation furnace according to claim 1, is characterized in that, described air-flow division plate is 10 centimetres with the clearance distance of relative inboard wall of furnace body.

6. efficient vertical pipe type activation furnace according to claim 1, is characterized in that, described activity blanking hush panel is eccentric disk, and the amount of stressing that activity blanking hush panel is positioned at tremie pipe lower end is less than the weight with respect to tremie pipe lower end opposite side.