CN104557384A - Refinery mixed dry gas recovery system and recovery method - Google Patents

Abstract

The invention discloses a refinery mixed dry gas recovery system and a recovery method. The system comprises a compressor, a heat exchanger, an absorption tower, a reabsorber, a desorption tower, a purification device and a rough separation tower, wherein the compressor is connected with the heat exchanger and then is connected with the absorption tower, and the top of the absorption tower is connected with the reabsorber; a reactor of the absorption tower is connected with the desorption tower, the top of the desorption tower is connected with the purification device and then is connected with the rough separation tower, and a reactor of the desorption tower is connected with the upper part of the absorption tower. According to the recovery system, a C2 component is recovered from dry gas by an absorbent, overhead gas, entrained with a small amount of absorbent, of the absorption tower is delivered to the reabsorber, the residue of the absorption tower is delivered to the desorption tower, a tower reactor lean solvent of the desorption tower returns to the absorption tower through heat exchange, a tower top gas phase enters the rough separation tower, ethylene-rich gas is recovered from the tower top of the rough separation tower and is delivered to an ethylene unit demethanizer, and ethane-rich gas is recovered from a reactor of the rough separation tower and is delivered to an ethylene unit cracking furnace. According to the recovery method disclosed by the invention, the flow is simple, the recovery rate is high, saturated hydrocarbons and unsaturated hydrocarbons are treated separately, and the operation of an ethylene unit is hardly affected.

Description

A kind of refinery's mixing dry gas recovery system and recovery method

Technical field

The present invention relates to dry-gas recovery field, furtherly, relate to a kind of oil refinery dry gas recovery system and recovery method.

Background technology

Oil refinery dry gas is mainly derived from the secondary processing process of crude oil, as catalytic cracking, thermally splitting, delayed coking, hydrocracking etc.At present, major part refinery of China will burn as fuel gas by oil refinery dry gas, and utility value is lower, and causes the great wasting of resources and environmental pollution.

In general catalysis drying gas, ethylene content is higher, belongs to unsaturated dry gas, and saturated dry gas is usually from PSA stripping gas, and lighter hydrocarbons dry gas, hydrogenation dry gas, reformation dry gas etc., ethane in saturated dry gas, propane content are higher, and ethene, propylene content are very low.Therefore, the concentrate gas composition after saturated dry gas and unsaturated dry-gas recovery and application also differ widely.

Ethane is ideal cracking stock, and in steam-cracking process, sizable Partial Conversion becomes ethene.If by the ethane recovery in oil refinery dry gas, be sent to ethylene producing device, not only take full advantage of refinery exhaust resource, and reduce cracking stock cost, embody Integrated Refinery And Petrochemical advantage.

From oil refinery dry gas, the method for recovered ethylene mainly contains separation by deep refrigeration, middle cold oil absorption process, Separation by Complexation method, pressure swing adsorption process etc. at present, and various method differs from one another.Separation by deep refrigeration technical maturity, Recovery rate of ethylene is high, but investment is large, higher for rare ethylene recovery energy consumption; Separation by Complexation method, Recovery rate of ethylene is higher, but requires strict to the impurity in raw material, and pre-treatment costly, needs special complexes absorption; Pressure swing adsorption process is simple to operate, and energy consumption is lower, but product purity is low, and Recovery rate of ethylene is low, and floor space is large.

Middle cold oil absorption process mainly utilizes the different solubility of absorption agent to component each in gas to carry out separating gas mixture, the general heavy constituent first utilizing absorption agent to absorb C2 and more than C2, isolate the non-condensable gases such as methane, hydrogen, then use each component in the agent of rectification method separate absorbent.The method has the features such as small scale, strong adaptability, investment cost be low.

CN1640992 proposes a kind of refrigeration oil absorption process being absorption agent with the self-produced stable light hydrocarbon of device, is applicable to reclaim liquefied gas from associated gas or Sweet natural gas, and C3 yield requires higher recovery process.Adopt the absorption process of this refrigeration oil, with less absorption agent, can obtain higher light hydrocarbon recovery rate, and technique is simple, energy consumption is lower, better economic benefit.But the method is only applicable to reclaim liquefied gas from associated gas or Sweet natural gas, can not reclaim C2 cut, cannot be used for the recovery of plant catalytic dry gas.

US5502971 discloses a kind of low-pressure low-temperature technique reclaiming C2 and more heavy hydrocarbons, is applicable to the recovery of oil refinery dry gas.This technique eliminates traditional high pressure scheme, changes and adopts low-voltage technology, and such recovered temperature just can remain on the temperature of nitric acid resin generation, avoids dangerous Potential feasibility, can also keep higher olefin yields simultaneously.The process employs low pressure scheme, temperature is low reaches-100 DEG C, belongs to the one of deep cooling process for separating, and investment is comparatively large, and energy consumption is higher.

US6308532 proposes a kind of technique of recovered ethylene and propylene from oil refinery dry gas, this technique comprises extracts C3 out from absorption tower reactor, C4, C5, part tower bottoms phase materials is also circulated to tower top by C6 liquid, thus keep the freezing temp of overhead condenser to be not less than-95 DEG C, in absorption tower, be rich in propylene or ethylene-propylene region extraction gas phase side line simultaneously.Although part kettle material is circulated to tower top and is unlikely too low to keep tower top temperature by this technique, tower top temperature is still low reaches-95 DEG C, still belongs to the one of deep cooling process for separating, and therefore invest comparatively large, energy consumption is higher.

CN101063048A discloses the method for cold oil absorption process separating plant catalytic dry gas in a kind of employing, this technique is made up of steps such as compressing, remove sour gas, drying and purification, absorption, desorb, cold recovery and rough segmentation, there is absorption agent with low cost, lose the advantages such as low.But the method absorption temperature is low, and energy consumption is high, absorption agent internal circulating load is large, and equipment size is large, and process CIMS is complicated, and product purity is not high.In addition, it is gas phase C-2-fraction and ethane that this technique reclaims products obtained therefrom, can only adopt Cemented filling, cause the suitability of the program to be subject to larger restriction.

It is 5 ~ 15 DEG C that CN101812322A discloses absorption temperature, and adopts decompressor and ice chest to reclaim the absorption extraction plant catalytic dry gas method of cold.Although the method increase the rate of recovery of alkene and alkane, flow process relative complex, invests relatively large, and energy consumption is relatively high.

CN101759516A discloses a kind of method of oil-absorption process separating plant catalytic dry gas, and this technique, by compressing, absorbs, desorb, then the step such as absorptions composition, adopts carbon five hydrocarbon as absorption agent, carbon two C3 fraction in recovery catalysis drying gas.But the method is only for reclaiming catalysis drying gas, and Recovery rate of ethylene is low.In addition, carbon two concentrate pneumatic transmission is toward ethylene unit alkaline washing tower, and thus certain needs processes and control foreign matter content in concentrate gas, and in addition, carbon two concentrate pneumatic transmission is comparatively large to the influence on system operation of ethylene unit toward soda-wash tower, and suitability is affected.The technique that patent CN101759518A adopts is identical with CN101759516A, although employing C_4 hydrocarbon is absorption agent, Recovery rate of ethylene is still not high, and concentrate gas is large on ethylene unit impact, and suitability is limited.

In sum, existing oil refinery dry gas is recycled mainly for catalysis drying gas, and only pay close attention to the ethene reclaimed in dry gas, therefore how with utilizing, research is further needed to saturated dry gas and unsaturated dry gas centralized recovery, in addition, there is the problems such as investment is large, energy consumption is high, the rate of recovery is low, technique suitability is limited in existing technique.

Summary of the invention

For solving how to saturated dry gas and unsaturated dry gas centralized recovery and utilization, and there is the problems such as investment is large, energy consumption is high, the rate of recovery is low, technique suitability is limited in existing technique, the invention provides a kind of refinery mixing dry gas recovery system and recovery method.Present invention process mainly comprises absorption tower, desorption tower, reabsorber, rough segmentation tower.Carbon two component in dry gas is reclaimed by absorption agent, keep absorption temperature at 5 ~ 25 DEG C, absorption tower top gas is carried a small amount of absorption agent secretly and is sent to reabsorber, absorb tower bottoms and be sent to desorption tower, desorption tower tower reactor lean solvent returns to absorption tower by heat exchange, and top gaseous phase enters rough segmentation tower after purification, rough segmentation column overhead extraction ethylene-rich gas, be sent to ethylene unit demethanizing tower, the rich ethane gas of rough segmentation tower tower reactor extraction, is sent to Furnace of Ethylene Cracking Plant.The inventive method flow process is simple, and the rate of recovery is high, and stable hydrocarbon and unsaturated hydrocarbons process respectively, runs substantially without impact ethylene unit.

An object of the present invention is to provide a kind of refinery mixing dry gas recovery system.

Comprise:

Compressor, interchanger, absorption tower, reabsorber, desorption tower, refining plant, rough segmentation tower;

Compressor connects absorption tower after connecting interchanger, absorbs tower top and connects reabsorber; Absorb tower reactor and connect desorption tower, desorb tower top connects rough segmentation tower after connecting refining plant, and desorb tower reactor connects top, absorption tower.

Absorption tower tower reactor arranges reboiler.

Two of object of the present invention is to provide a kind of refinery mixing dry gas recovery method.

Comprise:

1) absorption tower is entered after the compressed cooling of refinery's mixing dry gas;

2) absorption agent enters from top, absorption tower, absorbs C2 and above component in oil refinery dry gas; Desorption tower is delivered in the tower reactor logistics on absorption tower, and the logistics of tower top unabsorbed gases is sent to reabsorber; Absorption agent enters from reabsorber top again, absorbs by the absorption agent taken out of with not by carbon two component absorbed;

3) logistics of desorption tower top gaseous phase is sent to refining plant, and the lean solvent that desorb tower reactor obtains returns to top, absorption tower;

4) rough segmentation tower is sent to after desorption tower top gaseous phase logistics purification; Rough segmentation column overhead obtains ethylene-rich gas, and tower reactor obtains rich ethane gas.

The present invention specifically comprises the following steps:

1) the various saturated dry gas in refinery and unsaturated dry gas first merge together, and compressed pressure brings up to 3.0 ~ 4.5MPa; Be cooled to 5 ~ 25 DEG C and enter absorption tower;

2) absorption agent enters from top, absorption tower, to absorb in oil refinery dry gas C2 cut and more heavy component; Desorption tower is delivered in the tower reactor logistics on absorption tower, and the logistics of tower top unabsorbed gases is sent to reabsorber;

3) logistics of desorption tower top gaseous phase is sent to refining plant, and the lean solvent that tower reactor obtains, after cooling, returns to top, absorption tower;

4) logistics of desorption tower top gaseous phase carry out dewatering, acid gas removal body, if needed, also to carry out deoxidation, dearsenification, demercuration process; Gaseous stream through purification is sent to rough segmentation tower;

5) rough segmentation column overhead obtains ethylene-rich gas, and tower reactor is rich ethane gas, is sent to ethylene unit different positions respectively as two kinds of products.

Concrete technical scheme is as follows:

(1) compress: the dry gas pressure from refinery is brought up to 3.0 ~ 4.5MPa;

(3) cool: the dry gas after the compression obtain described step 1) is cooled to 5 ~ 25 DEG C;

(4) absorb: absorption agent enters from top, absorption tower, absorb carbon two and above component in oil refinery dry gas; Desorption tower process is delivered in the tower reactor logistics on absorption tower; The logistics of tower top unabsorbed gases is sent to reabsorber;

(5) desorb: the tower reactor logistics from absorption tower enters desorption tower, the lean solvent that tower reactor obtains is after cooling, and return to top, absorption tower and recycle as absorption agent, tower top obtains gas phase and is sent to refining plant.

(6) purify: the logistics of desorption tower top gaseous phase enters that refining plant carries out dewatering, acid gas removal body, if needed, also will carry out deoxidation, dearsenification, demercuration process;

(7) rough segmentation: the logistics after purification enters rough segmentation tower, tower top obtains ethylene-rich gas, is sent to ethylene unit demethanizing tower, and tower reactor obtains rich ethane gas, is sent to the pyrolyzer of ethylene unit.

In compression step, refinery's mixing dry gas generally needs to improve pressure step by step, and preferred pressure brings up to 3.0 ~ 4.5MPa, and to the hop count compressed, there is no particular limitation, preferably adopts two sections or three sections of compressions;

In cooling step, preferably oil refinery dry gas is cooled to 5 ~ 25 DEG C.The cold water that refrigeration agent is optional about 5 DEG C, is provided by lithium-bromide absorption-type refrigerating machine, or adopts other cryogens such as ammonia refrigeration.Preferred lithium-bromide absorption-type refrigerating machine provides cryogen.

In absorption step, described absorption agent can for the C-4-fraction containing normal butane, Trimethylmethane, the saturated liquefied gas containing saturated carbon three and carbon four, or the C5 fraction containing Skellysolve A, iso-pentane.Preferred normal butane is as absorption agent.

In the method for the invention, to the not special requirement of absorption agent consumption, those skilled in the art can determine according to the general knowledge of prior art.

Described absorption tower Optimization Theory plate number is 25 ~ 60, and working pressure is 3.0 ~ 6.0MPa, and tower top temperature is 10 DEG C ~ 40 DEG C.

The gaseous stream of described absorption tower tower top is sent to reabsorber.Absorption agent enters from tower top again, absorb by the absorption agent taken out of with not by carbon two component absorbed, reabsorber top gaseous phase is directly discharged into fuel gas pipe network, returns refinery's absorption stabilizing apparatus or other device after the extraction of tower reactor liquid phase, or directly goes ethylene unit to make cracking stock; Described absorption agent is again gasoline, or heavy naphtha, Aromatic raffinate etc., the stable gasoline component of preferred refinery.

The number of theoretical plate of preferred described reabsorber is 10-50, and working pressure is 1.0-4.0MPa.

In desorption procedure, because the pressure of the tower reactor logistics from absorption tower and desorption tower exist pressure reduction, pressure reduction is therefore relied on to enter desorption tower.Absorption agent after the desorb that desorption tower tower reactor obtains returns absorption tower recycle after cooling step by step.A small amount of absorption agent can enter reabsorber with absorption top gaseous phase, therefore, preferably introduces one absorption agent as a supplement in desorb tower reactor, with absorptive tower absorbent consumption in guarantee system.Desorption tower overhead extraction gas phase enters rough segmentation tower after purification.

The number of theoretical plate of preferred described desorption tower is 20-60, and working pressure is 1.0-4.0MPa.

In purifying step, need to dewater to logistics, the process of acid gas removal body, if needed, also will carry out deoxidation, dearsenification, demercuration process.Above-described purification can adopt common purifying method in prior art.

To dehydration without specific requirement, those skilled in the art can determine according to producer's particular case.Acid gas removal body can adopt amine to wash, and alkali cleaning also can be adopted to remove sour gas, preferred alkali wash acid gas removal body.

Deoxidation preferred Beijing Chemical Research Institute BC-TOS-15 dehydrogenation catalyst.To dearsenification and demercuration step without specific requirement, those skilled in the art can determine according to producer's particular case.

This logistics need be cooled to about-30 DEG C with propylene refrigerant or other cryogens by the logistics after purification, is then sent to rough segmentation tower;

In rough segmentation step, ethene and ethane separate by the mode mainly through rectifying, and overhead extraction ethylene-rich gas, is sent to the demethanizing tower of ethylene unit, and the rich ethane gas of tower reactor extraction, is sent to the pyrolyzer of ethylene unit.

The number of theoretical plate of preferred described rough segmentation tower is 20-80, and working pressure is 0.5-4.0Mpa, and reflux ratio is 1-30.

Main containing the ethene of 20-80wt%, the ethane of 5-40wt% in ethylene-rich gas, the content sum of each component is no more than 100%.

The main ethane containing 50-90wt% in rich ethane gas, the propane of 5-30wt%, the content sum of each component is no more than 100%.

In the present invention, absorption tower tower reactor arranges reboiler, to ensure that absorbing the light constituents such as tower reactor methane, hydrogen drops to below setting requirement.Wherein absorption tower tower reactor reboiler and desorption tower tower reactor reboiler heating medium can adopt low-pressure steam, also can adopt deep fat, preferred deep fat heating, can make full use of the rich heat in refinery, also can reduce process energy consumption.

Refinery of the present invention mixing dry gas Application way has following characteristics:

1) in method of the present invention, there are two kinds by rough segmentation product, are respectively rich ethane gas and ethylene-rich gas, are sent to ethylene unit distinct device respectively according to features, not only respective advantage is given full play to, and avoid the disadvantageous effect to ethylene unit.

2) method of the present invention is without any requirement to oil refinery dry gas, saturated dry gas and unsaturated dry gas can together with process, the suitability of technique is strong.

3) the present invention adopts the low-grade deep fat heating in refinery, and energy consumption reduces greatly.

4) absorption agent selectivity is comparatively large, and each absorption agent assimilation effect is all more satisfactory, according to different manufacturers situation, can select optimum absorption agent.

Accompanying drawing explanation

Fig. 1 is refinery of the present invention mixing dry gas recovery system schematic diagram.

Description of reference numerals:

1 compressor; 2 interchanger; 3 absorption towers; 4 desorption towers; 5 reabsorbers; 6 refining plants; 7 rough segmentation towers; 8 supplement absorption agent; 9 extraction heavy constituents; 10 ethylene-rich gas; 11 rich ethane gas; 12 absorption agents again; 13 fuel gas; 14 richnesses absorption agent again;

Embodiment

Below in conjunction with embodiment, further illustrate the present invention.

Embodiment:

As shown in Figure 1, a kind of refinery mixing dry gas recovery system, comprising: compressor, interchanger, absorption tower, reabsorber, desorption tower, refining plant, rough segmentation tower; Compressor connects absorption tower after connecting interchanger, absorbs tower top and connects reabsorber; Absorb tower reactor and connect desorption tower, desorb tower top connects rough segmentation tower after connecting refining plant, and desorb tower reactor connects top, absorption tower.Absorption tower tower reactor arranges reboiler.

Dry gas composition is as shown in table 1,

Table 1

	PSA stripping gas	Lighter hydrocarbons dry gas	FCC dry gas
				T[C]	38	40	40
P[MPa(g)]	0.45	0.75	0.55
				Mass Flow[kg/h]	7900	7240	12340
	mol%	mol%	mol%
				Hydrogen	55.74	57.34	14.44
Nitrogen	2.44	4.08	12.41
				Oxygen	0.71	0.11	0.50
Carbon monoxide	0.01	0.01	2.95
				Carbonic acid gas	0.01	0.08	0.48
Methane	12.40	12.42	34.97
				Ethane	13.51	23.67	15.14
Ethene	0.01	0.09	14.73
				Propane	9.43	0.07	1.36
Propylene	0.04	0.01	2.42
				Trimethylmethane	2.45	0.01	0.36
Normal butane	1.67	1.35	0.05
				Trans-2-butene	0.01	0.01	0.00
1-butylene	0.01	0.00	0.03
				Iso-butylene	0.04	0.00	0.00
Cis-2-butene	0.01	0.02	0.01
				Iso-pentane	0.84	0.03	0.02
Skellysolve A	0.42	0.14	0.04
				Normal hexane	0.26	0.56	0.10
Water	0.00	0.00	0.00

Oil refinery dry gas comprises PSA stripping gas, lighter hydrocarbons dry gas and FCC dry gas, wherein PSA stripping gas and lighter hydrocarbons dry gas are as saturated dry gas process, FCC dry gas is as unsaturated dry gas process, dry gas composition is in table 1, dry gas supplied materials is 27860kg/h, selects C-4-fraction as absorption agent, reclaims the carbon two in oil refinery dry gas and carbon three components.

Comprise the following steps:

(1) compress: the saturated dry gas in refinery is sent to compression system, and through three sections of compressions, pressure is increased to 4.0MPag, is cooled to 15 DEG C and enters absorption tower;

(2) absorb: the number of theoretical plate on absorption tower is 34, and working pressure is 3.79MPag, tower top temperature 15 DEG C.Lyosorption used is C-4-fraction, and solvent enters in tower from absorbing tower jacking, and dry gas enters from the 18th block of column plate.Carbon two in dry gas and heavy constituent thereof are got off by solvent absorbing, and from tower reactor extraction, tower top is the light constituent such as methane, hydrogen, and is entrained with a small amount of absorption agent.

(3) desorb: the number of theoretical plate of desorption tower is 41, and working pressure is 2.26MPag, and tower top temperature 15 DEG C, reflux ratio gets 0.95.Top gaseous phase after desorb, after purification, is sent to follow-up rough segmentation tower; Lean solvent is cooled to 13 DEG C and returns to absorption tower and recycle after stage-by-stage heat exchange.

(4) absorb again: the number of theoretical plate of reabsorber is 20, and working pressure is 3.4MPag.Stable gasoline selected by absorption agent again, then absorption agent enters in tower from tower top, reclaims by the mode absorbed the absorption agent and unabsorbed carbon two component carried secretly.Reabsorber top gaseous phase is sent to fuel gas pipe network, and tower reactor liquid phase is as rich gasoline extraction.

(5) purify: the gas phase from desorb tower top first removes oxygen through deoxidation reactor, removes after sour gas, molecular sieve drying dehydration through soda-wash tower, and purified gas is sent to rough segmentation tower.

(6) rough segmentation: the number of theoretical plate of rough segmentation tower is 50, and working pressure is 1.8Mpag, and reflux ratio is 7.Overhead gas after rough segmentation is ethylene-rich product, and tower reactor is rich ethane product.

The ethylene-rich product obtained is 3208kg/h, and composition is in table 2.

Table 2

Composition	mol%
		Hydrogen	0.10
Methane	20.61
		Ethane	27.95
Ethene	51.35

The rich ethane product obtained is 10599kg/h, and composition is in table 3.

Table 3

Composition	mol%
		Ethane	77.78
Ethene	1.00
		Propane	13.88
Propylene	3.70
		Trimethylmethane	2.66
Normal butane	0.35
		Anti-butylene 2	0.22
Butylene 1	0.33
		Iso-butylene	0.01
Maleic 2	0.06

In the present embodiment, carbon two rate of recovery is 93%.

Claims (6)

1. refinery's mixing dry gas recovery system, is characterized in that described system comprises:

Compressor, interchanger, absorption tower, reabsorber, desorption tower, refining plant, rough segmentation tower;

Compressor connects absorption tower after connecting interchanger, absorbs tower top and connects reabsorber; Absorb tower reactor and connect desorption tower, desorb tower top connects rough segmentation tower after connecting refining plant, and desorb tower reactor connects top, absorption tower.

2. refinery as claimed in claim 1 mixing dry gas recovery system, is characterized in that:

Absorption tower tower reactor arranges reboiler.

3. adopt a recovery method for the refinery's mixing dry gas recovery system as described in right 1 or 2, it is characterized in that described method comprises:

1) absorption tower is entered after the compressed cooling of refinery's mixing dry gas;

2) absorption agent enters from top, absorption tower, absorbs C2 and above component in oil refinery dry gas; Desorption tower is delivered in the tower reactor logistics on absorption tower, and the logistics of tower top unabsorbed gases is sent to reabsorber; Absorption agent enters from reabsorber top again, absorbs by the absorption agent taken out of with not by carbon two component absorbed;

3) logistics of desorption tower top gaseous phase is sent to refining plant, and the lean solvent that desorb tower reactor obtains returns to top, absorption tower;

4) rough segmentation tower is sent to after desorption tower top gaseous phase logistics purification; Rough segmentation column overhead obtains ethylene-rich gas, and tower reactor obtains rich ethane gas.

4. refinery as claimed in claim 3 mixing dry gas recovery method, is characterized in that:

Refinery's mixing dry gas is compressed to 3.0 ~ 4.5Mpa, sends into absorption tower after being cooled to 5 ~ 25 DEG C.

5. refinery as claimed in claim 3 mixing dry gas recovery method, is characterized in that:

Described absorption agent is the C-4-fraction containing normal butane, Trimethylmethane, the saturated liquefied gas containing saturated carbon three and carbon four, or the C5 fraction containing Skellysolve A, iso-pentane;

Described absorption agent is again gasoline, or heavy naphtha, Aromatic raffinate.

6. the oil refinery dry gas recovery method as described in claim 3-5, is characterized in that:

Described absorption tower Optimization Theory plate number is 25 ~ 60, and working pressure is 3.0 ~ 6.0MPa, and tower top temperature is 10 DEG C ~ 40 DEG C;

The number of theoretical plate of reabsorber is 10-50, and working pressure is 1.0-4.0MPa;

The number of theoretical plate of desorption tower is 20-60, and working pressure is 1.0-4.0Mpa;

The number of theoretical plate of rough segmentation tower is 20-80, and working pressure is 0.5-4.0Mpa, and reflux ratio is 1-30.