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Large-airspeed high-activity heavy naphtha desulfurizer and preparation method thereof

A heavy naphtha and desulfurizer technology, applied in the petroleum industry, refining hydrocarbon oil, refining to remove heteroatoms, etc., can solve the problem of excessive total sulfur content of heavy naphtha, excessive sulfur content of heavy naphtha, catalyst poisoning product quality, etc. problems, to achieve the effect of improving desulfurization effect, lowering activation temperature and increasing surface active sites

Active Publication Date: 2022-07-15
XIAN ORIGIN CHEM TECH
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Problems solved by technology

However, in the preparation process of the desulfurizer, the activated carbon needs to be washed with a large amount of water after being modified with a strong acid, resulting in waste of water resources and environmental pollution.
Activated carbon desulfurization is mainly based on physical adsorption, and the optimum operating temperature should not exceed 50°C. At the same time, oxygen is beneficial to activated carbon desulfurization. Therefore, when using activated carbon desulfurizer, it is required to contain a certain amount of oxygen in the raw material, which limits its scope of use.
When the activated carbon desulfurizer of this patent is used for desulfurization of gasoline and diesel oil, it can reduce the content of 150μg·g -1 The total sulfur removal to 10μg·g -1 Below, the desulfurization accuracy is low, the sulfur capacity is low, and it is not suitable for use at a temperature above 130°C
[0008] At present, most of the solid desulfurizers used in industry use metal oxides as active components. Although metal oxides have a good removal effect on hydrogen sulfide, they have poor removal ability on organic sulfur such as mercaptans and sulfides. Applying it to the heavy naphtha desulfurization process will often cause the total sulfur content in the purified heavy naphtha to exceed the standard, causing subsequent catalyst poisoning and product quality decline, affecting the normal production
[0009] In addition, with the continuous expansion of the demand for heavy naphtha, the annual desulfurization and purification treatment capacity of heavy naphtha is also increasing, and the device is in high-load production. However, when the device processing capacity (liquid space velocity) increases, the oil on the surface of desulfurizer The shorter the residence time, the sulfides cannot quickly react and adsorb with the active substances, which will also cause the sulfur content of the purified heavy naphtha to exceed the standard, which limits the production capacity of the enterprise

Method used

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  • Large-airspeed high-activity heavy naphtha desulfurizer and preparation method thereof
  • Large-airspeed high-activity heavy naphtha desulfurizer and preparation method thereof
  • Large-airspeed high-activity heavy naphtha desulfurizer and preparation method thereof

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Embodiment 1

[0051] The heavy naphtha desulfurizer of this embodiment is composed of the following components by mass percentage: activated alumina 30%, 5A molecular sieve 20%, copper 30%, cobalt 15%, Na 2 O 5%.

[0052] The preparation method of the heavy naphtha desulfurizer of the present embodiment comprises the following steps:

[0053] Step 1. Fully mix 462g of pseudo-boehmite, 200g of 5A molecular sieve original powder, 281g of copper oxide and 143g of cobalt oxide to obtain a mixed powder, then dissolve 85g of sodium carbonate into an aqueous solution with deionized water and spray it evenly. Stir into the mixed powder until it is fully moistened, and then place it at 100°C for drying to obtain dry powder;

[0054] Step 2: Add aluminum sol with a mass concentration of 10% to the dry powder obtained in step 1, and roll it into small balls with a diameter of φ2mm to 3mm in a sugar coating machine, and then maintain the balls at room temperature for 12h and 100 Drying at ℃ for 12h a...

Embodiment 2

[0060] The heavy naphtha desulfurizer of this embodiment is composed of the following components by mass percentage: activated alumina 50%, 13X molecular sieve 5%, nickel 20%, cerium 20%, K 2 O 5%.

[0061] The preparation method of the heavy naphtha desulfurizer of the present embodiment comprises the following steps:

[0062] Step 1. Fully mix 769g of aluminum hydroxide, 50g of 13X molecular sieve original powder, 212g of nickel oxide and 205g of cerium oxide to obtain a mixed powder, then dissolve 51g of potassium carbonate into an aqueous solution with deionized water and spray it into the mixture uniformly. The powder is stirred until fully moistened, and then dried at 100°C to obtain dry powder;

[0063] Step 2: Add aluminum sol with a mass concentration of 15% to the dry powder obtained in step 1, and roll it into small balls with a diameter of φ2mm to 3mm in a sugar coating machine, and then maintain the balls at room temperature for 24h and 120 in turn. Drying at ℃ ...

Embodiment 3

[0069] The heavy naphtha desulfurizer of this embodiment is composed of the following components by mass percentage: activated alumina 40%, mordenite molecular sieve 7%, copper 40%, lanthanum 10%, K 2 O 3%.

[0070] The preparation method of the heavy naphtha desulfurizer of the present embodiment comprises the following steps:

[0071] Step 1. Fully mix 615g of pseudo-boehmite, 70g of mordenite original powder, 417g of copper oxide and 98g of lanthanum oxide to obtain a mixed powder, then dissolve 44g of potassium carbonate into an aqueous solution with deionized water and spray evenly into the solution. Stir in the mixed powder until it is fully wet, and then place it to dry at 100 °C to obtain dry powder;

[0072] Step 2: Add aluminum sol with a mass concentration of 20% to the dry powder obtained in Step 1, and roll it into small balls with a diameter of φ2mm to 3mm in a sugar coating machine, and then maintain the balls at room temperature for 18h and 110 hours in turn. ...

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Abstract

The invention discloses a high-airspeed high-activity heavy naphtha desulfurizing agent and a preparation method thereof. The high-airspeed high-activity heavy naphtha desulfurizing agent consists of the following components: 30-50% of activated aluminum oxide, 5-20% of a molecular sieve, 20-40% of a first active metal element, 10-30% of a second active metal element and 1-5% of an auxiliary agent, the method comprises the following steps: 1, uniformly mixing an oxide containing active metal elements with a carrier raw material to obtain dry powder; 2, preparing the dried powder into pellets to obtain a desulfurizer A; 3, carrying out equivalent-volume impregnation on the desulfurizer A by using a mixed salt solution containing active metal elements to obtain a desulfurizer B; 4, activating; and 5, carrying out surface oxidation treatment. The carrier, the active substance and the auxiliary agent are designed, so that the adsorption capacity and the sulfur capacity of the desulfurizing agent are improved; by controlling the adding form of the active components step by step and combining activation and surface oxidation treatment, the activation degree is enhanced, the treatment capacity and desulfurization precision of the desulfurizing agent are improved, and the requirements of storage, transportation and production of the desulfurizing agent are met.

Description

technical field [0001] The invention belongs to the field of petrochemical catalytic purification agents, in particular to a high space velocity and high activity heavy naphtha desulfurizer and a preparation method thereof. Background technique [0002] Naphtha is the product of primary or secondary processing of crude oil or other oil products by refining and chemical enterprises. Due to the high latent content of aromatics and low nitrogen and sulfur content in naphtha, it is the product of catalytic reforming or isomerization to produce high octane. It is the most important raw material for gasoline, aromatics and hydrogen. Especially in recent years, the domestic demand for clean gasoline, benzene, toluene, xylene and other chemical raw materials has been strong, which has promoted the larger and larger scale of naphtha processing units. Therefore, the demand for naphtha raw materials has continued to increase. Conflicts are becoming increasingly prominent. In order to...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10G45/12C10G45/04
CPCC10G45/12C10G45/04C10G2300/202
Inventor 李选志曹晓玲潘喜强王瑞
Owner XIAN ORIGIN CHEM TECH
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