RU2732328C1 - Method for obtaining hydrocarbons c5-c18 of carbon monoxide and hydrogen - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to chemical industry, including petrochemistry and gas chemistry, and can be used for the process of producing hydrocarbons from carbon monoxide and hydrogen using the Fischer–Tropsch method. Invention relates to a method of producing hydrocarbons C₅-C₁₈ from carbon monoxide and hydrogen, comprising contacting a gas mixture with an effective amount of a cobalt-manganese catalyst and characterized by that the method is carried out in molar ratio of carbon monoxide to hydrogen of 1:2, pressure 1.5–2.5 MPa, contacting temperature 220–230 °C and gas feed volumetric rate of 750–1,250 h^-1.

EFFECT: use of increased pressure, temperature and volumetric rate of gas mixture supply provides synthesis with high efficiency with respect to formation of C₅₊ hydrocarbons.

1 cl, 5 dwg

Description

The invention relates to the chemical industry, including petrochemistry and gas chemistry, and can be used for the process of obtaining hydrocarbons from the Fischer-Tropsch method.

Traditionally, hydrocarbon components of C ₅ -C ₁₈ fuels are obtained from petroleum feedstocks. However, recently, the development of innovative methods for obtaining such products from non-oil raw materials, primarily from natural and associated petroleum gases, as well as coal, biomass, etc. has been updated.

The synthesis of hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method allows, while ensuring high selectivity for a given group of hydrocarbons, to obtain in one stage various hydrocarbon products - components of motor fuels and high-molecular hydrocarbons, etc., including as a raw material for chemical and petrochemical industry. Depending on the conditions of the process and the hardware design of the process, the synthesis products are saturated and unsaturated hydrocarbons, olefins, oxygen-containing compounds, etc.

A known method of carrying out the Fischer-Tropsch process from synthesis gas, including various variants of the method, for obtaining liquid hydrocarbons containing mainly diesel fuel or a diesel mixture, with obtaining a liquid hydrocarbon product containing more than 65% of diesel fraction (C ₉ -C ₂₃ ) ... One of the options for the method includes operating at a pressure below 200 psi. inch (abs) (Patent RU No. 2487159 C10G 2/00, C07C 1/04, C10L 1/08, B01J 23/75, B01J 23/889, 10.07.2013, Bull. No. 19).

The disadvantages of this method are: low pressure used in the method of producing hydrocarbons, low productivity in relation to the formation of hydrocarbons C ₅₊ , the need to use, including in the synthesis reactor, to promote the cobalt rhenium catalyst and / or a number of other promoters, which are expensive and scarce metals.

A known method of producing hydrocarbons from a mixture of carbon monoxide and hydrogen on a supported cobalt catalyst containing to increase the activity and selectivity in relation to the formation of hydrocarbons - manganese, forming a compacted layer of catalyst particles, which provides an economical mode of operation of the reactor (Patent RU No. 2273515 C2, B01J 23 / 75, B01J 3704, 10.04.2006, bull. No. 10).

The disadvantages of this method are: low productivity in relation to the formation of hydrocarbons C ₅₊ , the need to solve the problem of loading the crust catalyst into the reactor in the form of a structured layer and its operation in an economically attractive mode of obtaining hydrocarbons.

Closest to the proposed method for producing hydrocarbons C ₅ -C ₁₈ from carbon monoxide and hydrogen by the Fischer-Tropsch method is a method for producing synthetic hydrocarbons from CO and H ₂ in the presence of a cobalt-manganese catalyst with a silica gel carrier (Patent RU No. 2674161, B01J 37/02, B01J 37/08, B01J 37/18, B01J 37/32, B01J 23/34, B01J 23/75, C07C 1/04, 05.12.18, Bull. No. 34). The catalyst obtained by the impregnation method, selective for the formation of C ₅₊ hydrocarbons, contains 20.6-22.2% of the mass. cobalt and 0.8-1.2% of the mass. manganese additives and silica gel carrier. The described method makes it possible to carry out the synthesis process with increased selectivity in relation to the formation of hydrocarbons C ₁₁ -C ₁₈ and reduced selectivity in relation to the formation of a by-product - methane.

The disadvantages of this method are: low productivity in relation to the formation of hydrocarbons C ₅₊ , carrying out the process of obtaining hydrocarbons at atmospheric pressure and a gas space velocity of 100 h ^-1 , which limits the implementation of the method in practice.

The objective of the present invention when changing the conditions of the process is to create a productive and selective method of obtaining from carbon monoxide and hydrogen by the Fischer-Tropsch method of hydrocarbons C ₅ -C ₁₈ , providing: obtaining an economic effect when carrying out the method with high productivity in relation to the formation of hydrocarbons C ₅₊ , at elevated - temperature and conversion of the gas mixture into reaction products; high quality of the synthesized product.

The problem posed, according to the proposed invention, is solved by the fact that a method is used for producing C ₅ -C ₁₈ hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method, which is characterized by the use of increased pressure, temperature and gas space velocity with the corresponding molar ratio of the gas mixture components comprising contacting the gas mixture with an effective amount of a catalyst containing 21.3% of the mass. cobalt and 1.0% of the mass. manganese additives and a silica gel carrier, the method being carried out at a molar ratio of carbon monoxide and hydrogen of 1: 2, a pressure of 1.5-2.5 MPa, a contact temperature of 220-230 ° C and a gas flow rate of 750-1250 h ^-1 .

The proposed method for producing C ₅ -C ₁₈ hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method is characterized by: obtaining an economic effect due to the synthesis process with high productivity in relation to the formation of C ₅₊ hydrocarbons at elevated pressure, temperature and volumetric velocity of the gas mixture ; the quality of the synthesized product.

The technical result obtained is the creation of a productive and selective method for the production of C ₅ -C ₁₈ hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method is ensured by the fact that an increase in pressure, temperature and volumetric gas flow rate with an appropriate molar ratio of gas mixture components allows the process to be carried out with high productivity for the target synthesis products, which, in turn, determines the high performance of the synthesis process and is confirmed by the higher than in the known method, productivity in relation to the formation of C ₅₊ hydrocarbons in the mode of intensive synthesis at a temperature of 220-230 ° C, the conversion of components gas mixture into reaction products and selectivity in relation to the formation of C ₅ -C ₁₈ hydrocarbons, including C ₅ -C ₁₁ hydrocarbons.

Comparison of the process parameters for the known and proposed methods for producing hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method was carried out in a tubular reactor with a fixed catalyst bed at a pressure of 1-3 MPa in the temperature range 215-235 ° C, a space velocity of 500-1500 h ^{- 1} gas mixture with a molar ratio of CO: H ₂ 1: 1-1: 3.

Generalized comparative data on the assessment of the effect of the implementation conditions of the known and proposed methods for producing hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method on the process parameters are shown in Fig. 1 in table 1, about the fractional composition of the obtained hydrocarbons in accordance with examples 1 and 4 - in FIG. 2 in Table 2. FIG. 3 in table 3 and in FIG. 4 and 5 in the form of the molecular weight distribution of hydrocarbons in accordance with examples 1 and 4 presents additional data on the composition of the synthesis products obtained by known and proposed methods.

The known and proposed methods were compared in terms of the process of obtaining hydrocarbons: CO conversion, selectivity and productivity in relation to the formation of C ₅₊ hydrocarbons in terms of kg / m ³ _cat h.

The invention is carried out in the following way.

The production of hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method can be carried out using various types of synthesis reactors, for example, reactors with a fixed, fluidized or suspended catalyst bed, taking into account the technological features of the synthesis.

The production of hydrocarbons from carbon monoxide and hydrogen by the Fischer-Tropsch method is carried out in a tubular reactor with a fixed catalyst bed. The test conditions (examples 1-17) and generalized comparative data on the evaluation of the parameters of the hydrocarbon production process obtained using the known and proposed methods are shown in FIG. 1 in table 1.

For testing (examples 1-17) use a sample of the catalyst containing 21.3% of the mass. cobalt and 1.0% of the mass. manganese additives and silica gel carrier.

When preparing the catalyst, silica gel with a granule size of 2-3 mm was used as a carrier. In particular, large-pore, granular grade KSKG in accordance with GOST 3956-76.

208.25 g of cobalt nitrate in the form of Co (NO ₃ ) ₂ ⋅6H ₂ O at a temperature of 80 ° C, stirring, is dissolved in 43.60 g of distilled water, after which the addition of manganese in the form of 8.84 g of acetate is introduced into the impregnating solution manganese - Mn (CH ₃ COO) ₂ ⋅4H ₂ O, with a mass ratio of Co: Mn in an impregnating solution from 100: 4.70, and immerse 50 cm ^{3 of} silica gel with a temperature of 80 ° C, dried for 4 h at a temperature of 150 ° C ... Impregnate for 0.5 h at 80 ° C, stirring. The wet catalyst is dried for 4 h at a temperature of 80 ° C, until the granules stick together; heat treated for 4 hours at a temperature of 125 ° C, then 6 hours at a temperature of 300 ° C; activation (reduction) is carried out with hydrogen at a temperature of 380 ° C for 0.83 h at a hydrogen space velocity of 1000 h ^-1 . The degree of reduction of the catalyst is 53%.

The above results show that the proposed method for producing C ₅ -C ₁₈ hydrocarbons from carbon monoxide and hydrogen allows: to conduct the synthesis process in an intensive mode of conversion of the feedstock with increased productivity in relation to the formation of C ₅₊ hydrocarbons (5-7 times) and selectivity in relation to the formation of hydrocarbons C ₅ -C ₁₈ , including hydrocarbons C ₅ -C ₁₁ , (7 times).

Claims (1)

A method for producing C ₅ -C ₁₈ hydrocarbons from carbon monoxide and hydrogen, comprising contacting a gas mixture with an effective amount of a catalyst containing 21.3 wt% cobalt and 1.0 wt% manganese additives and a silica gel carrier, characterized in that the method is carried out at a molar ratio of carbon monoxide and hydrogen of 1: 2, a pressure of 1.5-2.5 MPa, a contact temperature of 220-230 ° C and a gas flow rate of 750-1250 h ^-1 .

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