CN104275068A - Supercharging temperature swing adsorption process and device - Google Patents
Supercharging temperature swing adsorption process and device Download PDFInfo
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- CN104275068A CN104275068A CN201410451679.6A CN201410451679A CN104275068A CN 104275068 A CN104275068 A CN 104275068A CN 201410451679 A CN201410451679 A CN 201410451679A CN 104275068 A CN104275068 A CN 104275068A
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Abstract
The invention relates to a supercharging temperature swing adsorption process. The process comprises the following flows: I switching loops and dividing four adsorption towers into two groups, wherein one adsorption tower is in one group and serves as a low-pressure main adsorption tower, and three adsorption towers are in the other group and are respectively a high-pressure pre-adsorption tower, a cold blowing regeneration tower and a hot blowing regeneration tower; a heater is arranged on a pipeline between the cold blowing regeneration tower and the hot blowing regeneration tower; a cooler and a separator are connected behind the hot blowing regeneration tower; an inlet pipeline of the low-pressure main adsorption tower is accessed to the output end of the separator; II dividing a feed gas into two paths, wherein one path of the feed gas enters the low-pressure main adsorption tower and a product gas is output; the other path of the feed gas is supercharged by a supercharging device, then enters the high-pressure pre-adsorption tower, the cold blowing regeneration tower, the heater, the hot blowing regeneration tower, the cooler and the separator in sequence and then enters an access loop of the low-pressure main adsorption tower; the high boiling point liquid separated by the separator is discharged. The four adsorption towers are divided into two groups, wherein one group is used for main adsorption and the other group is used for adsorbent regeneration. The adsorbent regeneration process is high in speed and the efficiency of the whole purification process is higher.
Description
Technical field
The present invention relates to air separation by PSA field, especially relate to a kind of booster-type temperature swing adsorption process and device.
Background technology
Natural gas purification method is more, and solid absorption method is one of them, and it utilizes the solid, porous particles material that optionally fluid-absorbent Semi-polarity is strong to be attached on its surfaces externally and internally, thus the method that fluid mixture is separated.The adsorbent that current absorption method is commonly used has molecular sieve, silica gel and activated alumina.Solid absorption method uses more extensive at present, the such as public technology of " device of the de-heavy hydrocarbon of a kind of associated gas dehydration " (Authorization Notice No. CN203256242U) by name, namely be adopt solid absorption method, but after the hot blow regeneration gas gas-liquid separation of this patented technology, supercharger need be passed through, pressure is improved and enters unstripped gas again, but still there is the deficiency that efficiency is not high, affect adsorbent reactivation speed, and need after gas-liquid separation to add cost by supercharger.
Summary of the invention
Main purpose of the present invention is to provide the high booster-type temperature swing adsorption process of a kind of purification efficiency.
Another object of the present invention is to provide that a kind of purification process efficiency is high, adsorbent reactivation booster-type temperature swing absorption unit fast.
Above-mentioned technical problem of the present invention is mainly solved by following technical proposals: a kind of booster-type temperature swing adsorption process, it is characterized in that: the first step, switching circuit, four adsorption towers are divided into two groups, one group is one, as the main adsorption tower of low pressure, another group is three, is divided into the pre-adsorption tower of high pressure, cold blowing regenerator, hot blow regenerator; Pipeline between cold blowing regenerator, hot blow regenerator establishes heater, after hot blow regenerator, connects cooler, separator, the entrance pipe of the main adsorption tower of separator output access low pressure; Second step, unstripped gas is divided into two-way; One tunnel enters the main adsorption tower of low pressure, output products gas; Another road through supercharging device supercharging, then enters the pre-adsorption tower of high pressure, cold blowing regenerator, heater, hot blow regenerator, cooler, separator successively, then enters the access loop of the main adsorption tower of low pressure, and the high boiling liquid that separator is separated is discharged.Four adsorption towers are divided into two groups, one group of main absorption, make adsorbent reactivation for one group.Adsorbent reactivation process is quick, and the efficiency of whole purification process is higher.Adopt supercharging device to form high pressure feed, enter the pre-adsorption tower of high pressure, rely on pressure reduction directly to send into unstripped gas loop by after the gas-liquid separation of hot blow regeneration gas.
As preferably, at second step, unstripped gas is divided into two-way, and the unstripped gas wherein entering the main adsorption tower of low pressure is 90-98%, and the unstripped gas that supercharging enters the pre-adsorption tower of high pressure is 2-10%.Both kept adsorbent effectively to regenerate, the efficiency of higher purification process can have been ensured again.
As preferably, four adsorption towers are divided into groups successively.The adsorbent in each adsorption tower is made to obtain effective regeneration one by one.
As preferably, cold blowing regenerator is by bottom inflow, and hot blow regenerator is by top air inlet.Can effectively improve adsorbent reactivation efficiency.
A kind of booster-type temperature swing absorption unit of the present invention, comprises four adsorption towers, it is characterized in that: the entrance of each adsorption tower, export each connection four stop valves, and the outlet of all straight-through four stop valves or entrance; Be connected to the stop valve of the outlet of adsorption tower, one connects gas product output loop, two are communicated with by heater, a stop valve of the arrival end of a connection adsorption tower, in addition, another three stop valves of adsorption column inlet, an access is through the unstripped gas loop of supercharging device supercharging, an access unstripped gas loop, connection cooler, a separator, separator accesses unstripped gas loop again.Shunting is undertaken by gas diverter.This structure, has an adsorption tower to be low-pressure side absorption all the time, has an adsorption tower to be high-pressure side absorption, to have an adsorption tower to be in cold blowing process, to have an adsorption tower to be in hot blow process; Four tower adsorption towers are alternately in four states above, and complete the separation of high boiling component and the continuous operation of system, purification process efficiency is high, adsorbent reactivation is quick.
As preferably, adsorption tower comprises and forms tower body and the cylindrical shell of built-in sorbent, and cylindrical shell two-port arranges upper cover, low head respectively, arranges lower distributor in low head; Upper cover bottom establishes envelope screening cylindrical shell to enter the screen cloth of upper cover passage, and screen cloth is provided with compression packing layer; Screen cloth periphery is fixed on upper cover, under external force, to arch upward or recessed tapered in the middle part of screen cloth.Screen cloth developed area be greater than fixed position area of section, so arch upward or recessed tapered in middle part, and not flattened structure of the prior art; Be convenient to effectively transmit the gravity compressing packing layer, and screen cloth arches upward or in recessed deformation process, can not the resistance of formation and modification, make the gravity of tight packing layer pass to adsorbent consistently, adsorbent is made to be subject to constant pressure, thus constant compacting screen cloth, reduction absorbent atomizing speed.
As preferably, compress packing layer and comprise screen cloth piles up and have several granular fillers, there is between filler the gap by gas.Be convenient to through air-flow.
As preferably, described filler is stone or porcelain ball.Cost is low, not easily produces chemical reaction with medium and changes gravity, can keep long service life.
As preferably, upper cover bottom arranges screen cloth fixed support, and screen cloth fixed support comprises the annulus that two can clamp screen periphery, and two annulus consist of bolt and are fixedly connected with, and wherein an annulus is fixed on upper cover bottom.Rational in infrastructure, be easy to installation, dismounting, change screen cloth.
As preferably, screen cloth is covered with one deck outer screen, is provided with the joint pin of several rigidity between screen cloth and outer screen, the outer sheathed soft cover of joint pin, and joint pin and soft cover two ends are fixed on screen cloth and outer screen respectively; Compressing packing layer is filled between screen cloth and outer screen, outside soft cover.This structure, can form compressible elastic space by cavity in soft cover, also just provides elastic space for compressing packing layer; Owing to there being elastic space, the particle that release compresses in packing layer can relatively rotate when moving downward or upward, avoiding compressing does not have unnecessary gap between the particle in packing layer and the phenomenon that forms caking, make compression packing layer can rise at any time or decline all the time on screen cloth, can not insufficient space be produced and extrude the situation of caking.In addition, outer screen and joint pin can make the even particle distribution in compression packing layer.
Therefore, a kind of booster-type temperature swing adsorption process of the present invention had both kept adsorbent effectively to regenerate, and can ensure higher purification efficiency again.
A kind of booster-type temperature swing absorption unit of the present invention has that purification process efficiency is high, adsorbent reactivation feature fast; In addition, the adsorption tower adopted have can constant compacting screen cloth, reduce the beneficial effect of absorbent atomizing speed.
Accompanying drawing explanation
Accompanying drawing 1 is principle schematic of the present invention.
Accompanying drawing 2 is circuit diagram of the present invention.
Accompanying drawing 3 is a kind of structural representations of adsorption tower of the present invention.
Accompanying drawing 4 is a kind of structural representations that upper cover adopts Double-layer screen structure.
Accompanying drawing 5 is a kind of structural representations of screen cloth when adopting Double-layer screen structure.
Detailed description of the invention
Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.
Embodiment 1: a kind of booster-type temperature swing adsorption process, as shown in accompanying drawing 1, accompanying drawing 2, the first step, four adsorption towers are divided into two groups by switching circuit, and one group is one, as the main adsorption tower of low pressure, another group is three, is divided into the pre-adsorption tower of high pressure, cold blowing regenerator, hot blow regenerator; Pipeline between cold blowing regenerator, hot blow regenerator establishes heater, after hot blow regenerator, connects cooler, separator, the entrance pipe of the main adsorption tower of separator output access low pressure;
Second step, unstripped gas is divided into two-way; One tunnel enters the main adsorption tower of low pressure, output products gas; Another road through supercharging device supercharging, then enters the pre-adsorption tower of high pressure, cold blowing regenerator, heater, hot blow regenerator, cooler, separator successively, then enters the access loop of the main adsorption tower of low pressure, and the high boiling liquid that separator is separated is discharged.
In second step, unstripped gas is divided into two-way, and the unstripped gas wherein entering the main adsorption tower of low pressure is 90-98%, and the unstripped gas that supercharging enters the pre-adsorption tower of high pressure is 2-10%.
Four adsorption towers are divided into groups successively.
Cold blowing regenerator is by bottom inflow, and hot blow regenerator is by top air inlet.
Embodiment 2: a kind of booster-type temperature swing absorption unit, as shown in Figure 2, it comprises four adsorption towers T101A, T101B, T101C, T101D; The entrance of each adsorption tower, export each connection four stop valves, such as adsorption tower T101A entrance, outlet meet stop valve KS101a ~ KS108a, adsorption tower T101B entrance, outlet meet stop valve KS101b ~ KS108b, adsorption tower T101C entrance, outlet meet stop valve KS101c ~ KS108c, and adsorption tower T101D entrance, outlet meet stop valve KS101d ~ KS108d; The outlet of the entrance of each adsorption tower, all straight-through four stop valves of outlet or entrance; Be connected to the stop valve of the outlet of adsorption tower, one connects gas product output loop, two are communicated with by heater K3, a stop valve of the arrival end of a connection adsorption tower, in addition, another three stop valves of adsorption column inlet, an access is through the unstripped gas loop of supercharging device K4 supercharging, and one is accessed unstripped gas loop, connection cooler K1, a separator K2, separator K2 accesses unstripped gas loop again, namely enters the access loop of the main adsorption tower of low pressure.
As shown in Figure 3, adsorption tower comprises formation tower body and the cylindrical shell 6 of built-in sorbent 11, and cylindrical shell 6 two-port arranges upper cover 4, low head 5 respectively, arranges lower distributor 8 in low head 5; Upper cover 4 bottom establishes envelope screening cylindrical shell 6 to enter the screen cloth 10 of upper cover 4 passage, and screen cloth 10 is provided with and compresses packing layer 12; Screen cloth 10 periphery is fixed on upper cover 4, under external force, to arch upward or recessed tapered in the middle part of screen cloth 10.Under external force, can move up and down in the middle part of screen cloth 10.
Upper cover 4 is connected with the discharge pipe of tool outlet 2, and low head 5 is connected with the feed pipe of tool import 1, feed pipe is connected with the blow-off line of tool sewage draining exit 3.
Compression packing layer 12 comprises accumulation on screen cloth 10 several granular fillers, has the gap by gas between filler.Filler is stone or porcelain ball.
Upper cover 4 bottom arranges screen cloth fixed support 9, and screen cloth fixed support 9 comprises the annulus that two can clamp screen cloth 10 edge, and two annulus are fixedly connected with by bolt formation, and wherein an annulus is fixed on upper cover 4 bottom.
In addition, during particle packing, when compressing packing layer rising or decline, particle usually needs space that is mobile or that rotate; The outline of adjacent particle is once agree with, interaction force integrally lumps making contiguous granulated, each particle is limited by adjacent particles and can not rotate, that is without saving space, particle will make freely to decline or to rise, compress packing layer also just limited, gravity effectively cannot be delivered to adsorbent layer, and being formed cannot the situation of compacting adsorbent.
Therefore, as the further improvement project of one, the present invention can adopt Double-layer screen structure, as shown in accompanying drawing 2, accompanying drawing 3, screen cloth 10 is covered with one deck outer screen 101, be provided with the joint pin 103 of several rigidity between screen cloth 10 and outer screen 101, the outer sheathed soft cover 102 of joint pin 103, joint pin 103 and soft cover 102 two ends are fixed on screen cloth 10 and outer screen 101 respectively; Compressing packing layer 12 is filled between screen cloth 10 and outer screen 101, outside soft cover 102.Joint pin 103 is in soft cover 102 center, and the distance between soft cover 102 inwall can equal the height of joint pin 103.Joint pin 103 can be rigid body, soft cover 102 is deformable elastomer, make the distance at each position between screen cloth 10 and outer screen 101 roughly constant, although in ascending and descending process, cross section changes, but the distortion of soft cover 102, make total accommodation space of accommodating filler constant, the distribution of filler is also constant, remains at equally distributed state.
Soft cover is that soft material makes, can at deformation caused by external forces; Compressible elastic space can being formed by cavity in soft cover, also just providing elastic space for compressing packing layer; Owing to there being elastic space, the particle that release compresses in packing layer can relatively rotate when moving downward or upward, avoiding compressing does not have unnecessary gap between the particle in packing layer and the phenomenon that forms caking, make compression packing layer can rise at any time or decline all the time on screen cloth, can not insufficient space be produced and extrude the situation of caking.In addition, joint pin 103 is evenly distributed on screen cloth 10, and therefore, outer screen and joint pin can make the even particle distribution in compression packing layer.
The present invention is applicable to the temperature swing adsorption process flow process of high boiling component, and this flow process adopts four adsorption towers, in its course of work, have all the time an adsorption tower be low-pressure side absorption, purified gas as product directly to out-of-bounds carrying; All the time have an adsorption tower to be high-pressure side absorption, purified gas enters to need the adsorption tower of cold blowing as cold blowing pneumatic transmission; All the time an adsorption tower is had to be in cold blowing process; All the time an adsorption tower is had to be in hot blow process; Four tower adsorption towers are alternately in four states above, complete the separation of high boiling component and the continuous operation of system.
Below to flow process of the present invention explanation for example.For ease of describing, be one group using adsorption tower T101A and illustrate as main adsorption tower, now adsorption tower T101B, adsorption tower T101C, adsorption tower T101D are as other one group.Flow process is: access unstripped gas, and shunted by part flow arrangement, wherein the unstripped gas of 95% is entered the adsorption tower T101A of low-pressure side absorption by KS101a valve, purified gas is sent as gas product through KS102a.Entered the adsorption tower T101B of high-pressure side absorption by KS107b valve after wherein the unstripped gas of 5% adopts compressor pressurizes, gas after process enters the adsorption tower T101C being in the cold blowing stage through KS105b valve and KS106c valve, gas is by after T101C, gas flows out the adsorption tower T101C of cold blowing through KS104c, enter heat exchanger, after gas-heated, the adsorption tower T101D being in hot blow state is entered by KS103d valve, gas flows out the adsorption tower T101D of hot blow through KS108d, enter cooler, after gas is cooled to normal temperature, pass through gas-liquid separator again, the high boiling component of liquefaction is separated, discharge system, gas enters unstripped gas house steward after decompression.
Thereafter, then switching circuit grouping, adsorption tower T101B is carried out purification work as one group as main adsorption tower, and adsorption tower T101C, adsorption tower T101D, T101A form another loop as one group and carry out adsorbent purification.The like, more successively using adsorption tower T101C, adsorption tower T101D as one group and as main adsorption tower, so circulation is carried out.
Claims (10)
1.
oneplant booster-type temperature swing adsorption process, it is characterized in that: the first step, switching circuit, four adsorption towers are divided into two groups, one group is one, and as the main adsorption tower of low pressure, another group is three, is divided into the pre-adsorption tower of high pressure, cold blowing regenerator, hot blow regenerator; Pipeline between cold blowing regenerator, hot blow regenerator establishes heater, after hot blow regenerator, connects cooler, separator, the entrance pipe of the main adsorption tower of separator output access low pressure;
Second step, unstripped gas is divided into two-way; One tunnel enters the main adsorption tower of low pressure, output products gas; Another road through supercharging device supercharging, then enters the pre-adsorption tower of high pressure, cold blowing regenerator, heater, hot blow regenerator, cooler, separator successively, then enters the access loop of the main adsorption tower of low pressure, and the high boiling liquid that separator is separated is discharged.
2. a kind of booster-type temperature swing adsorption process according to claim 1, it is characterized in that: at second step, unstripped gas is divided into two-way, and the unstripped gas wherein entering the main adsorption tower of low pressure is 90-98%, and the unstripped gas that supercharging enters the pre-adsorption tower of high pressure is 2-10%.
3. a kind of booster-type temperature swing adsorption process according to claim 1, is characterized in that: divided into groups successively by four adsorption towers.
4. a kind of booster-type temperature swing adsorption process according to claim 1 or 2 or 3, is characterized in that: cold blowing regenerator is by bottom inflow, and hot blow regenerator is by top air inlet.
5. a booster-type temperature swing absorption unit, comprises four adsorption towers (T101A, T101B, T101C, T101D), it is characterized in that: the entrance of each adsorption tower, export each connection four stop valves; Be connected to the stop valve of the outlet of adsorption tower, one connects gas product output loop, two are communicated with by heater (K3), a stop valve of the arrival end of a connection adsorption tower, another three stop valves of adsorption column inlet, an access is through the unstripped gas loop of supercharging device (K4) supercharging, and one is accessed unstripped gas loop, connection cooler (K1), separator (K2), separator accesses unstripped gas loop again.
6. a kind of booster-type temperature swing absorption unit according to claim 5, it is characterized in that: adsorption tower comprises formation tower body and the cylindrical shell (6) of built-in sorbent (11), cylindrical shell (6) two-port arranges upper cover (4), low head (5) respectively, arranges lower distributor (8) in low head (5); Upper cover (4) bottom establishes envelope screening cylindrical shell (6) to enter the screen cloth (10) of upper cover (4) passage, and screen cloth (10) is provided with and compresses packing layer (12); Screen cloth (10) periphery is fixed on upper cover (4), and under external force, arch upward or recessed tapered in screen cloth (10) middle part.
7. a kind of booster-type temperature swing absorption unit according to claim 5, is characterized in that: compression packing layer (12) comprises the upper accumulation of screen cloth (10) several granular fillers, has the gap by gas between filler.
8. a kind of booster-type temperature swing absorption unit according to claim 7, is characterized in that: described filler is stone or porcelain ball.
9. a kind of booster-type temperature swing absorption unit according to claim 6 or 7 or 8, it is characterized in that: upper cover (4) bottom arranges screen cloth fixed support (9), screen cloth fixed support (9) comprises the annulus that two can clamp screen cloth (10) edge, two annulus are fixedly connected with by bolt formation, and wherein an annulus is fixed on upper cover (4) bottom.
10. a kind of booster-type temperature swing absorption unit according to claim 6 or 7 or 8, it is characterized in that: screen cloth (10) is covered with one deck outer screen (101), the joint pin (103) of several rigidity is provided with between screen cloth (10) and outer screen (101), joint pin (103) is a sheathed soft cover (102) outward, and joint pin (103) and soft cover (102) two ends are fixed on screen cloth (10) and outer screen (101) respectively; Compressing packing layer (12) is filled between screen cloth (10) and outer screen (101), outside soft cover (102).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108479322A (en) * | 2018-06-19 | 2018-09-04 | 四川天科技股份有限公司 | A kind of continuous drying Processes and apparatus of low-pressure air |
CN111744318A (en) * | 2020-06-30 | 2020-10-09 | 四川杰瑞恒日天然气工程有限公司 | Odor treatment process for landfill gas |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1147976A (en) * | 1995-07-28 | 1997-04-23 | 波克股份有限公司 | Adsorption process |
CN202366604U (en) * | 2011-11-11 | 2012-08-08 | 南通正拓气体有限公司 | Novel adsorption tower |
CN203256242U (en) * | 2013-04-18 | 2013-10-30 | 四川科比科油气工程有限公司 | Device for removing water and heavy hydrocarbon from oilfield associated gas |
-
2014
- 2014-09-05 CN CN201410451679.6A patent/CN104275068B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1147976A (en) * | 1995-07-28 | 1997-04-23 | 波克股份有限公司 | Adsorption process |
CN202366604U (en) * | 2011-11-11 | 2012-08-08 | 南通正拓气体有限公司 | Novel adsorption tower |
CN203256242U (en) * | 2013-04-18 | 2013-10-30 | 四川科比科油气工程有限公司 | Device for removing water and heavy hydrocarbon from oilfield associated gas |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108479322A (en) * | 2018-06-19 | 2018-09-04 | 四川天科技股份有限公司 | A kind of continuous drying Processes and apparatus of low-pressure air |
CN108479322B (en) * | 2018-06-19 | 2020-06-30 | 四川天一科技股份有限公司 | Low-pressure air continuous drying process and equipment |
CN111744318A (en) * | 2020-06-30 | 2020-10-09 | 四川杰瑞恒日天然气工程有限公司 | Odor treatment process for landfill gas |
CN111744318B (en) * | 2020-06-30 | 2022-06-24 | 四川杰瑞恒日天然气工程有限公司 | Odor treatment process for landfill gas |
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