阅读说明：本技术 一种FCC再生烟气降NOx和硫转移双功能助剂及其制备方法 (FCC regenerated flue gas NOx reduction and sulfur transfer dual-functional auxiliary agent and preparation method thereof ) 是由 张先茂 王天元 王泽� 金建涛 陈宗杰 王国兴 陈凯 赵志杰 彭渺 于 2020-04-22 设计创作，主要内容包括：本发明公开了一种FCC再生烟气降NOx和硫转移双功能助剂及其制备方法。本发明的助剂以MgF<Sub>2</Sub>改性的催化裂化平衡剂作为载体,原位等体浸渍法负载Pb、Sr和一种Ⅷ族金属。应用于FCC工业模拟装置,可使NOx脱除85%以上,SOx脱除75%以上。该剂回收利用催化裂化废平衡剂,生产工艺简单,使用方便,经济效益显著。(The invention discloses an FCC regenerated flue gas NOx reduction and sulfur transfer dual-function auxiliary agent and a preparation method thereof. The auxiliary agent of the invention is MgF 2 The modified catalytic cracking balancing agent is used as a carrier, and Pb, Sr and a VIII family metal are loaded by an in-situ isocontour impregnation method. The catalyst is applied to FCC industrial simulation devices, and can remove more than 85% of NOx and more than 75% of SOx. The agent recycles the catalytic cracking waste balancing agent, has simple production process, convenient use and obvious economic benefit.)

1. The FCC regenerated flue gas NOx-reducing and sulfur transfer double-function auxiliary agent and the preparation method thereof are characterized in that the auxiliary agent mainly comprises a carrier and active components, wherein: the carrier is MgF₂The active components of the modified catalytic cracking balancing agent are Pb, Sr and a VIII family metal.

2. An FCC bifunctional promoter according to claim 1, wherein the components comprise, in mass percent: 6 to 10 percent of PbO, 5 to 8 percent of SrO, 8 to 12 percent of VIII group metal oxide and the balance of MgF₂The modified catalytic cracking balancing agent carrier is characterized in that the VIII family metal is selected from Fe, Co or Ni.

3. The FCC bifunctional promoter of claim 1, wherein the MgF is₂Modified catalytic cracking equilibrium agent carrier, MgF in carrier₂The mass percentage of the stabilizer is 5-15%, and the balance is a balancing agent.

4. An FCC bifunctional promoter as claimed in claim 1, wherein the preparation method comprises the steps of:

(1) adding an alkaline solution with the pH value of 10-12 into a catalytic cracking balancing agent, stirring and heating to 50-90 ℃, maintaining the temperature for 8-12 hours, then filtering, sending filter residues into a pressure container after filtering, introducing medium-pressure steam for treatment for 12-24 hours, and drying at 90-150 ℃;

(2) fluidizing the balancing agent dried in the step (1) in a fluidized device, and then spraying a certain amount of MgF dissolved in the balancing agent into the upper part of the fluidized device₂The temperature of the fluidizing device is raised to the required roasting temperature and maintained for a period of time to obtain the modified carrier;

(3) adding calculated amounts of lead nitrate, strontium nitrate and one nitrate of group VIII metal into a complexing agent to prepare a steeping fluid, and standing for 8-12 hours;

(4) and (3) taking a certain amount of the carrier obtained in the step (2), placing the carrier into the solution obtained in the step (3) by adopting an equivalent impregnation method, impregnating for 4-8 hours, placing for 6 hours, drying for 1-5 hours at 100-150 ℃, and roasting for 2-4 hours at 650-750 ℃ to obtain the FCC bifunctional auxiliary agent.

5. The method for preparing a bifunctional auxiliary according to claim 4, wherein: the alkaline solution is one of sodium carbonate, potassium carbonate and ammonia water.

6. The method for preparing a bifunctional auxiliary according to claim 4, wherein: the weight ratio of the alkaline solution to the balancing agent is 1.5-5.0: 1.

7. the method for preparing a bifunctional auxiliary according to claim 4, wherein: the medium pressure steam pressure is 2.5MPa to 4.0MPa, and the temperature is 400 ℃ to 450 ℃.

8. The method for preparing a bifunctional auxiliary according to claim 4, wherein: the solution of a certain amount of MgF₂The mass percentage concentration of the nitric acid solution is 5-15%, and MgF₂The mass percentage concentration of the (B) is 7.0-23.0%; the volume of the injected water is 90-110% of the total water absorption amount of the added balancing agent, the required roasting temperature is 850 ℃, and the holding time is 3 hours.

9. The method for preparing a bifunctional auxiliary according to claim 4, wherein: the complexing agent is citric acid or tartaric acid, and the addition amount of the complexing agent is equal to the total amount of nitrate.

Technical Field

The invention belongs to the technical field of catalysis, and particularly relates to an auxiliary agent for simultaneously removing NOx and SOx from FCC regenerated flue gas and a preparation method thereof.

Background

The method of adding the auxiliary agent is adopted to reduce the emission of pollutants such as NOx, SOx, CO and the like in FCC regenerated flue gas, does not need to change the structure of equipment, has low investment and convenient use, and is favored by various domestic and foreign oil refineries. Among these, the combustion promoter was the earliest additive used to reduce the emissions of FCC pollutants, since CO is not only a very harmful atmospheric pollutant, but also causes the tail-burning phenomenon of the regenerator. Currently, many refineries in China have been forced to use platinum combustion promoters to control the afterburning of the cracking regenerator, but this has resulted in a dramatic increase in NOx emissions. This is because:

CO + O₂= CO₂(1)

2N + O₂= 2NO (2)

C + 2NO = CO₂+ N₂(3)

2CO + 2NO = 2CO₂+ N₂(4)

the platinum combustion improver catalyzes the reaction (1), so that CO is efficiently combusted, and the reaction (2) is promoted to be carried out, so that more nitrogen on coke enters the regenerated flue gas in the form of NO; meanwhile, the reduction of CO in reducing substances influences NO to N₂The reaction (4) is inhibited, so that the content of NOx in the smoke is obviously increased. NOx and SOx can increase the dew point temperature of the flue gas, resulting in a phenomenon of 'nitre brittleness'; they are discharged into the atmosphere along with the flue gas, and acid rain is also formed to pollute the environment, so that measures must be taken by oil refineries to reduce the content of NOx and SOx in FCC regeneration flue gas. The (3) and (4) in the above formula are the reaction principle of the NOx reducing auxiliary agent for FCC regenerated flue gas.

The process for reducing SOx emission in FCC flue gas by using the auxiliary agent comprises the following steps: trapping SOx in FCC regenerator and H in reactor and stripping section₂S is released. The relevant reactions are as follows:

3S (in coke) + 4O₂＝ SO₂(90%) + 2SO₃(10%) (5)

2SO₂+ O₂＝ 2SO₃（6）

PB + SO₃= MSO₄(7)

MSO₄+ 4H₂(or hydrocarbons) = MS + 4H₂O (8)

MSO₄+ 4H₂(or hydrocarbons) = PB + H₂S +3H₂O (9)

MS + H₂O = PB + H₂S (stripping section) (10)

SO_XThe metal oxide on the transfer additive is used for catalytically oxidizing sulfur dioxide and adsorbing generated sulfur trioxide to generate sulfate under the oxygen-enriched condition of the regenerator, so that the sulfate is prevented from entering the atmosphere; when the sulfur-containing gas returns to the reduction atmosphere of the reactor, sulfate can be decomposed and hydrolyzed into metal oxide, hydrogen sulfide is released at the same time, the hydrogen sulfide enters an oil-gas separation system and then is subjected to a Clause process to recover sulfur, and the metal oxide returns to a regenerator to continuously adsorb sulfur trioxide.

At present, SO is concerned_XThe number of patents on the transfer aids and the application techniques thereof is over 100, and the practical reaction process is also complicated. From the condition of domestic use, the common problems are that the speed of sulfur release is slow, the sulfur release is insufficient, the reduction activity of the sulfur transfer agent is not ideal, and new agents are required to be supplemented continuously; if the NOx reducing additive is added, the FCC main catalyst is inevitably diluted, and the catalytic cracking activity is influenced. Therefore, it is necessary to develop a bifunctional auxiliary. From the above reaction principle, it can be seen that the NOx reduction auxiliary agent has catalytic reduction activity, and the bifunctional agent is also a shortcut for solving the problem of low reduction activity of the existing sulfur transfer agent.

Patents CN1383909 and CN102962061 provide catalysts for simultaneously removing NOx and SOx from FCC regenerated flue gas, which respectively load multiple active components on aluminum silicate and alumina microspheres, and the carrier structure is single, thus it is difficult to provide multiple active sites required by desulfurization and denitrification reactions.

Disclosure of Invention

The invention aims to provide a novel FCC regenerated flue gas NOx reduction and sulfur transfer dual-function auxiliary agent. The auxiliary agent has high removal rate of NOx and SOx in FCC regenerated flue gas, recycles the catalytic cracking waste balancing agent, and has simple production process, convenient use and obvious economic benefit.

The invention also aims to provide a preparation method of the FCC regenerated flue gas NOx-reduction and sulfur transfer dual-function auxiliary agent.

The technical scheme adopted by the invention for solving the technical problems is as follows: a regenerated flue gas NOx reduction and sulfur transfer dual-function auxiliary agent mainly comprises a carrier and multiple active substances, wherein: with MgF₂The modified catalytic cracking balancing agent is used as a carrier to provide corresponding active sites for various elementary reactions of desulfurization and denitrification; pb, Sr and a VIII family metal are used as active components to provide catalytic oxidation and catalytic reduction activities required by each elementary reaction; the content of the catalytic reduction active component is improved in general, so that the problem of poor reduction activity of the existing sulfur transfer agent is solved, and meanwhile, the auxiliary agent has an excellent reduction denitrification function.

The preparation method of the FCC regenerated flue gas NOx-reduction and sulfur transfer dual-function auxiliary agent can be prepared by the following main steps:

(1) preparing 1-8 wt% of one solution of sodium carbonate, potassium carbonate and ammonia water, adjusting the pH value of the solution to 10-12 by using NaOH or KOH and citric acid, adding a balancing agent, wherein the weight ratio of the solution to the balancing agent is 1.5-5.0: 1. stirring and heating to 50-90 ℃, maintaining the temperature for 8-12 hours, and then filtering. And after filtering, sending filter residues into a pressure container, introducing medium-pressure steam with the pressure of 2.5-4.0 MPa and the temperature of 400-450 ℃ for 12-24 hours, and drying at the temperature of 90-150 ℃.

(2) Fluidizing the balancing agent dried in the step (1) in a fluidized device, and then spraying a certain amount of MgF dissolved in the balancing agent into the upper part of the fluidized device₂The mass percentage concentration of the nitric acid solution is 5-15%, and MgF₂The mass percentage concentration of the (B) is 7.0-23.0%; the volume of the injected water is 90-110% of the total water absorption amount of the added balancing agent. The temperature of the fluidizing device is increased to 850 ℃ and maintained for 3h to obtain the modified carrier. MgF in carrier₂The mass percentage of the stabilizer is 5-15%, and the balance is a balancing agent.

(3) Adding calculated amount of lead nitrate, strontium nitrate and one nitrate of VIII group metals into citric acid or tartaric acid complexing agent with the amount equal to the total amount of the nitrate to prepare impregnation liquid, and standing for 8-12 h.

(4) Taking a certain amount of the carrier obtained in the step (2), placing the carrier into the solution obtained in the step (3) by adopting an equivalent impregnation method, impregnating for 4-8 hours, placing for 6 hours, and drying for 1-5 hours at the temperature of 100-150 ℃; and roasting at 650-750 ℃ for 2-4 h to obtain the FCC dual-functional auxiliary agent, wherein the FCC dual-functional auxiliary agent comprises the following components in percentage by mass: 6 to 10 percent of PbO, 5 to 8 percent of SrO and 8 to 12 percent of Fe, Co or Ni metal oxide.

Compared with the prior art, the invention has the beneficial effects that:

the auxiliary agent of the invention adopts MgF₂The modified catalytic cracking balancing agent is used as a carrier, Pb, Sr and a VIII group metal are used as a plurality of active components for denitrification and desulfurization, and the advantages are that: (1) the denitrification and desulfurization activity is good. With MgF₂The modified catalytic cracking balancing agent is used as a carrier to provide corresponding active sites for various elementary reactions of desulfurization and denitrification; f^-The dispersion degree of the active components is modified and strengthened, and the interaction between the carrier and the active components is weakened; the deposition of a Pb species face-centered cubic structure on a carrier in the preparation process is inhibited, so that the coordination number and the space utilization rate are relatively increased; the synergistic effect of various catalytic reduction active components and catalytic oxidation active components; these result in a catalyst having good denitrification and desulfurization activity. (2) Has little influence on the main reaction of FCC. The auxiliary agent has good reduction activity and thorough sulfur release, so the recycling period is prolonged, and a new agent is not required to be added continuously; the bifunctional agent is added in a much smaller amount than when using both denitrogenation and sulfur transfer aids. These mitigate the effect on the catalytic cracking main reaction due to over-dilution of the FCC main catalyst. (3) And (4) recycling the balancing agent. The balancing agent is a waste agent which must be periodically discharged because the catalytic cracking catalyst can not maintain the proper reaction activity and selectivity after being deactivated in the using process. The traditional landfill method consumes capital and soil resources and causes environmental pollution. The balance agent is recycled by the aid of the auxiliary agent, and good social and economic benefits are achieved.

Detailed description of the preferred embodiments

The present invention is described in further detail below with reference to specific experimental protocols. However, the right of the invention is not limited by the following examples. In the following examples, the percentages are by mass.