CN1465667A - Method and system for reducing olefinic hydrocarbon content of catalytically cracked gasoline and preserving octane rating - Google Patents

Abstract

The method for reducing olefine content and retaining octane value of catalytically-cracked gasoline at least includes the following steps: making the catalytically-cracked gasoline fraction passed through condensation cooling system and aqueous vapor feed into the auxiliary upgrading riser reactor to contact with high-temp. regeneration agent and make gasification, mixing and reaction to obtain upgraded oil-gas; feeding the reacted catalyst into original regenerator; mixing the upgraded oil-gas with reaction oil-gas of main riser raector, separating from reaction regeneration system; and feeding the mixed oil-gas into main fractionation tower to make further separation. Said system includes secondary condensation cooling system, regeneration agent oblique pipe and auxiliary riser reactor, main riser reactor and gas-solid separation device, etc.

Description

Reduce catalytic cracking gasoline olefine content and keep the method and system of octane value

Technical field:

The present invention relates to a kind of method and system that reduce catalytically cracked gasoline content and keep octane value, belong to the catalytic conversion technique field of petroleum hydrocarbon.

Background technology:

In the last few years, the environmental regulation of countries in the world had all proposed the requirement of increasingly stringent to the quality of vapour, diesel oil, and was especially more and more harsher to the requirement of indexs such as the olefin(e) centent of gasoline, sulphur content, benzene content.Therefore, become the main impellent that promotes that every oil Refining Technologies further advances from the requirement of environmental protection aspect, and comparatively traditional catalytic cracking technology stands in the breach especially.Compare with many developed countries, the technical process of China's oil refining enterprise is shorter, and working depth is more shallow relatively.Thereby the blend component of commercial gasoline is less, and unreasonable.For example, the catalytically cracked gasoline of China accounts for the ratio of commercial gasoline up to 90wt%, and U.S.'s catalytically cracked gasoline only accounts for about 35wt%.Corresponding, the U.S. is respectively from the ratio that the gasoline of devices such as catalytic reforming, alkylation, isomerization and etherificate accounts for commercial gasoline: 33wt%, 13wt%, 5wt% and 8wt%; And above-mentioned four class gasoline shared ratio in Chinese commodity gasoline is very little.

As everyone knows, the olefin(e) centent of catalytically cracked gasoline is 35～65wt%, is a kind of more representational gasoline fraction that is rich in alkene.Though this gasoline has higher octane value, its poor heat stability easily forms colloid; Also can increase the quantity of toxic substance such as active hydro carbons thing and polyenoid in the discharge after the burning.In addition, along with the continuous heaviness and the poor qualityization of catalytically cracked stock, the sulphur content in its gasoline products, nitrogen content are also increasing; Can increase SO after the burning _xAnd NO _xDischarging, environmental pollution is serious.

Hydrofining is a kind of effective measure that address the above problem.Under hydrogen pressure, realize the catalytic reforming of oil product by hydrofining, reach desulfurization, denitrogenation, alkene is saturated, aromatic hydrocarbons is saturated purpose, to improve oil quality, to satisfy environmental requirement.But present domestic most oil refining enterprises are not to lack hydrorefined means, are exactly the not enough or shortage hydrogen source of hydrorefined processing power.On the other hand, hydrofining makes the saturated meeting of alkene and aromatic hydrocarbons bring the massive losses of octane value, can't satisfy the requirement of new gasoline standard equally.So it is unpractical that the catalytically cracked gasoline that accounts for the nearly 90wt% of commercial gasoline all improves oil quality by hydrofining.

In sum, in order to satisfy of the requirement of environmental protection aspect to oil product, give a human cleaning, the fine environment created, we will progressively adjust the technical process of oil refining industry on the one hand, increase the quantity of devices such as hydrofining, hydrocracking, catalytic reforming, alkylation, etherificate, and improve their working ability; Will step up to develop the Technology that tallies with the national condition on the other hand, the especially improvement of catalytic cracking process technology so that in the short as far as possible time, utilizes limited investment to solve the oil quality problem.

In order to address the above problem, improve the quality of gasoline products, refine oil the boundary both at home and abroad also to have done number of research projects.For example, as technology such as the pre-hydrotreatment of fcc raw material, the operation of optimizing reaction-regeneration system and fractionating system, employing olefine lowering catalyst, catalytic gasoline re-injection riser tubes.

On the basis of above-mentioned prior art, the purpose of this invention is to provide and a kind ofly reduce catalytic cracking gasoline olefine content and keep the constant or economy that slightly improves of its octane value and effective novel method, to solve the problem that is run in the current gasoline upgrade and replacement process.

Summary of the invention:

One of main purpose of the present invention is to provide a kind of method and device that reduces catalytic cracking gasoline olefine content and keep octane value, by existing heavy oil catalytically cracking equipment is improved, make catalytically cracked gasoline carry out the catalytic reforming reaction, reduce the content of alkene in the catalytically cracked gasoline, guarantee that simultaneously the octane value of reformulated gasoline does not reduce.

Another purpose of the present invention is to provide a kind of method and device that reduces catalytic cracking gasoline olefine content, simplifies the catalytic reforming technology of catalytically cracked gasoline, technology maturation, and less investment is easy to realize.

The object of the present invention is achieved like this:

A kind of method that reduces catalytic cracking gasoline olefine content and keep octane value which comprises at least following step:

At first, obtain the catalytically cracked gasoline cut by the separation of condensation cooling system;

Secondly, catalytically cracked gasoline cut and water vapour enter auxiliary upgrading riser reactor, and contact, gasify, mix and react, the oil gas behind the generation upgrading with high temperature regeneration agent from former revivifier;

Then, reacted catalyzer enters the settling vessel and the stripping stage of former catalytic cracking unit, enters former revivifier again; Oil gas behind the upgrading with after the reaction oil gas of main riser reactor mixes, leaves reaction-regeneration system in the settling vessel of former catalytic cracking unit;

At last, mixed oil and gas enters main fractionating tower and carries out separating of rich gas, raw gasline lighting end, raw gasline last running, diesel oil, recycle stock and slurry oil.

Wherein the catalytically cracked gasoline cut is full cut of raw gasline or raw gasline last running; Raw gasline last running obtains by the B-grade condensation cooling system.

During raw gasline last running upgrading, corresponding raw gasline lighting end can be directly mixes with gasoline fraction behind the upgrading, also can carry out earlier mixing with corresponding gasoline fraction behind the upgrading again.

A kind of system that reduces catalytic cracking gasoline olefine content and keep octane value which comprises at least B-grade condensation cooling system, the inclined tube of setting up and service hoisting pipe reactor, main riser reactor, gas-solid separating device in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment; Wherein,

The B-grade condensation cooling system is based upon fractionator overhead, promptly adds the one-level condensate cooler again before the conventional condensate cooler of former catalytic cracking unit fractionation cat head;

The service hoisting pipe reactor of in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment, setting up, gas-solid separating device is installed in its outlet, is used for the catalytically cracked gasoline cut that comes out from the B-grade condensation cooling system is carried out the catalytic reforming reaction; Upgrading oil gas is separated by gas-solid separating device with catalyzer; Catalyzer is got back to former revivifier behind stripping;

The regenerator inclined tube two ends of setting up in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment are connected with former catalytic cracking unit revivifier with the service hoisting pipe reactor respectively, are used for the high-temperature regenerated catalyst logistics in the former catalytic cracking unit revivifier is incorporated into the service hoisting pipe reactor;

The inlet of service hoisting pipe reactor is connected in the regenerator inclined tube lower end of setting up, and is used for oil gas, water vapour and catalyzer are contacted, gasify, mix and react;

Gas-solid separating device is inverted "L" shaped device, is located at the outlet of service hoisting pipe reactor, partly inserts together with the subsidiary riser reactor outlet in the settling vessel of former catalytic cracking unit.

The reaction conditions of catalytic reforming reaction is:

Temperature of reaction is 350～550 ℃;

The gasoline stocks preheating temperature is 40～200 ℃;

Catalyzer oil plant weight ratio is 2～20;

Catalyst activity is 55～65;

The reaction times that promotes pipeline section is 1.0～15.0s;

Reaction pressure is 0.1～0.4MPa.

Catalyzer is any catalyzer that uses in the catalytic cracking process.

The present invention makes and set up a service hoisting pipe reactor in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment, and the catalytically cracked gasoline cut is carried out the catalytic reforming reaction, to the change minimum of former catalytic cracking unit, invests low; Do not need in addition reformulated gasoline is carried out processing such as extra separation, heat recuperation, be easy to control, stable operation.The present invention can be reduced to catalytic cracking gasoline olefine content 35 and (v) below the %, and keep octane value not reduce or slightly improve, can satisfy the requirement of national environmental protection rules.

Description of drawings:

Fig. 1 is the process flow diagram of one embodiment of the invention.

Embodiment:

As shown in Figure 1, by the top of separation column 1 oil gas 2 (comprising raw gasline and rich gas) that comes out, 3 condensations are cooled to enter after 50～60 ℃ separating tank 4 and carry out the separation of profit gas through condenser, and condensed water 5 detaches separating tank 4 by condensate pump 6.The product liquid that condensation is got off is raw gasline last running 7, extracts out from separating tank 4 through last running petrol-feed pump 8, and a part refluxes 9 as the top of separation column 1, and another part 10 further is cooled to 40 ℃ through supercooler 11.If to the full fraction upgrading of raw gasline, open valve 23, valve-off 24, raw gasline last running 10 and raw gasline lighting end 21 are mixed into gets certain appropriate amount 25 behind the full cut 22 of raw gasline and enters the upgrading of newly establishing and carry out upgrading with the service hoisting pipe reactor, and rest part 26 enters absorbing-stabilizing system; If to raw gasline last running upgrading, open valve 23 and 24, the raw gasline last running 27 of getting certain appropriate amount by flow control directly enters the upgrading of newly establishing and carries out upgrading with the service hoisting pipe reactor, and rest part 28 enters absorbing-stabilizing system after being mixed into the full cut 22 of raw gasline with raw gasline lighting end 21.At this moment petroleum naphtha 21 can directly with after raw gasline last running 28 mixes enter absorbing-stabilizing system; After also can carrying out upgrading earlier, enter absorbing-stabilizing system again with after raw gasline last running 28 mixes as aspects such as petroleum naphtha etherificate, isomery aromizing.

Uncooled oil gas 12 process condensers 13 condensations of coming out from separating tank 4 are cooled to enter after 40 ℃ separating tank 14 and carry out the separation of profit gas, and condensed water 15 detaches separating tank 14 by condensate pump 16.The uncooled oil gas that comes out from separating tank 14 is rich gas 17, enters rich gas compressor.The condensate oil of being separated by separating tank between the pneumatic press machine 18 turns back to separating tank 14.The product liquid that condensation is got off in the separating tank 14 is that raw gasline lighting end 19 becomes raw gasline lighting end 21 by 20 extractions of lighting end petrol-feed pump.

The operation of former catalytic cracking reaction-regeneration system is constant, be that raw material 29 enters main riser tube 30 with water vapour from the bottom, with be 460～530 ℃ by water vapour 32 steam stripped high temperature regeneration agent 33 in temperature of reaction from revivifier 31, the heavy oil feedstock preheating temperature is 160～250 ℃, catalyzer oil plant weight ratio is 5～8, catalyst activity is 50～65, reaction times is 2.5～3.0s, reaction pressure is to contact under 0.1～0.4MPa, gasification, mix and reaction, oil gas, water vapour passes through main riser reactor 30 with catalyzer, to main riser reactor outlet, revolve 35 separately by efficient fast gas-solid separator 34 and settling vessel top with main reaction oil gas 38 and catalyzer, catalyzer enters through settling vessel 36 and enters stripping stage 37, enters revivifier 31 through behind the stripping.Main reaction oil gas 38 and upgrading riser reactor outlet oil gas 39 is mixed into oil gas 40 and leaves settling vessel 36 and enter main fractionating tower 1 bottom and carry out separating of rich gas, raw gasline lighting end, raw gasline last running, diesel oil, recycle stock, slurry oil.

The full cut 25 of raw gasline or isolate last running (cut point: 60～80 ℃) 27 by fractionator overhead B-grade condensation system and enter auxiliary upgrading riser reactor 41 from the bottom with water vapour, with the high temperature regeneration agent 43 that promotes by water vapour 42 from revivifier 31 be 350～550 ℃ in temperature of reaction, the gasoline stocks preheating temperature is 40～200 ℃, catalyzer oil plant weight ratio is 2～20, catalyst activity is 57～65, reaction times is 1.0～15.0s, reaction pressure is to contact under 0.1～0.4MPa, gasification, mix and reaction, oil gas, water vapour passes through auxiliary upgrading riser reactor 41 with catalyzer, upgrading oil gas 39 and catalyzer are separated by simple inverted L shape fast gas-solid separator 44 to the outlet of upgrading riser reactor, catalyzer enters the settling vessel 36 and the stripping stage 37 of former catalytic cracking unit, enters former revivifier 31 through behind the stripping.The reaction oil gas 38 of upgrading oil gas 39 and main riser reactor leaves settling vessel 36 and enters main fractionating tower 1 bottom and carry out separating of rich gas, raw gasline lighting end, raw gasline last running, diesel oil, recycle stock, slurry oil after settling vessel 36 mixes.

The used catalyzer of the present invention can be any catalyzer that is applicable to catalytic cracking process, i.e. modifying catalytically cracked gasoline reaction is realized by former heavy oil catalytic cracking unit catalyzer.For example, amorphous silicon aluminium catalyzer or molecular sieve catalyst; Wherein, the active ingredient of molecular sieve catalyst is selected from one or more in Y type or HY type zeolite, the ultrastable Y that contains or do not contain rare earth and/or phosphorus, the ZSM-5 series zeolite that contains or do not contain rare earth and/or phosphorus or the supersiliceous zeolite with five-membered ring structure, β zeolite, the ferrierite.

It should be noted last that, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not breaking away from the spirit and scope of technical solution of the present invention, it all should be encompassed in the middle of the claim scope of the present invention.

Claims (7)

1, a kind of method that reduces catalytic cracking gasoline olefine content and keep octane value is characterized in that: which comprises at least following step:

At first, obtain the catalytically cracked gasoline cut by the separation of condensation cooling system;

Secondly, catalytically cracked gasoline cut and water vapour enter auxiliary upgrading riser reactor, and contact, gasify, mix and react, the oil gas behind the generation upgrading with wherein high temperature regeneration agent;

Then, reacted catalyzer enters the settling vessel and the stripping stage of former catalytic cracking unit, enters former revivifier again; Oil gas behind the upgrading with after the reaction oil gas of main riser reactor mixes, leaves reaction-regeneration system in the settling vessel of former catalytic cracking unit;

At last, mixed oil and gas enters former catalytic cracking unit main fractionating tower and carries out separating of rich gas, raw gasline lighting end, raw gasline last running, diesel oil, recycle stock and slurry oil.

2, reduction catalytic cracking gasoline olefine content according to claim 1 and keep the method for octane value, it is characterized in that: described catalytically cracked gasoline cut is full cut of raw gasline or raw gasline last running.

3, reduction catalytic cracking gasoline olefine content according to claim 2 and keep the method for octane value, it is characterized in that: described raw gasline last running obtains by the B-grade condensation cooling system.

4, the method for reduction catalytic cracking gasoline olefine content according to claim 1 and 2 is characterized in that: during described raw gasline last running upgrading, corresponding raw gasline lighting end can directly or be carried out mixing with gasoline fraction behind the upgrading.

5, a kind of system that reduces catalytic cracking gasoline olefine content and keep octane value is characterized in that: the regenerator inclined tube of which comprises at least the B-grade condensation cooling system, setting up in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment and service hoisting pipe reactor, main riser reactor, gas-solid separating device; Wherein,

The B-grade condensation cooling system is based upon fractionator overhead, promptly adds the one-level condensate cooler again before the conventional condensate cooler of former catalytic cracking unit fractionation cat head;

The service hoisting pipe reactor of in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment, setting up, gas-solid separating device is installed in its outlet, is used for the catalytically cracked gasoline cut that comes out from the B-grade condensation cooling system is carried out the catalytic reforming reaction; Upgrading oil gas is separated by gas-solid separating device with catalyzer; Catalyzer is got back to former revivifier behind stripping;

The inclined tube two ends of setting up in the reaction-regeneration system rapidly of heavy oil catalytically cracking equipment are connected with former catalytic cracking unit revivifier with the service hoisting pipe reactor respectively, are used for the high-temperature regenerated catalyst logistics in the former catalytic cracking unit revivifier is incorporated into the service hoisting pipe reactor;

The inlet of service hoisting pipe reactor is connected in the regenerator inclined tube lower end of setting up, and is used for oil gas, water vapour and catalyzer are contacted, gasify, mix and react;

Gas-solid separating device is inverted "L" shaped device, is located at the outlet of service hoisting pipe reactor, partly inserts together with the subsidiary riser reactor outlet in the settling vessel of former catalytic cracking unit.

6, reduce catalytic cracking gasoline olefine content and keep the method and system of octane value according to claim 1 or 5, it is characterized in that: the reaction conditions of described catalytic reforming reaction is:

Temperature of reaction is 350～550 ℃;

The gasoline stocks preheating temperature is 40～200 ℃;

Catalyzer oil plant weight ratio is 2～20;

Catalyst activity is 55～65;

The reaction times that promotes pipeline section is 1.0～15.0s;

Reaction pressure is 0.1～0.4MPa.

7, reduce catalytic cracking gasoline olefine content and keep the method and system of octane value according to claim 1 or 5, it is characterized in that: described catalyzer is any catalyzer that uses in the catalytic cracking process.