UA81197C2 - Process for preparation of diesel fuel from vegetable oils and fats and unit for realizing the same - Google Patents

Abstract

A process for preparation of vehicle fuels from renewable raw material, in particular from vegetable oils and fats by hydration-hydrocracking and also unit for realizing the process. The invention is directed for obtaining quality biodiesel fuel, which equals in technical characteristics to petroleum diesel fuel.

Description

Description of the invention

The invention relates to the production (production) of automotive fuel from renewable raw materials. 2 Fossil fuel reserves are limited and their use has a great impact on the environment. Therefore, now much attention is paid to renewable energy sources. Production of motor fuels and chemical products (products) from vegetable and animal raw materials leads to direct savings of oil. Biodiesel fuel is used in commercial volumes, and its global production exceeds 2 million tons. In Canada,

Europe (including Ukraine) and many other regions mainly use oil obtained from 710 rapeseeds. Rapeseed oil is used as an independent fuel for diesel engines, but more often - in a mixture with petroleum diesel fuel with its content in the mixture from 5 to 4095 (1-3).

More widely, vegetable oils are used to obtain higher quality fuel by catalytic transesterification of them with ethyl and methyl alcohols. But even this fuel, which consists mainly of ethers, is inferior to petroleum diesel fuel I3-5 in a number of indicators). 12 The purpose of the valid invention is the production (production) of biodiesel fuel, which provides technical indicators at the level of the best types of petroleum diesel fuel. This goal is achieved by hydrogenation - hydrocracking of vegetable oils and fats. All compounds containing oxygen, nitrogen, sulfur are hydrogenated, and the hydrocarbons formed are cracked to obtain lower molecular weight compounds. Glycerides, which are contained in vegetable oils, are almost completely hydrogenated: yah in

SE; - SOOK | same village

SN - SOOK - NN. - S. Nopty Z NOYA o ts » сНн- СООК Ф - from the formation of saturated hydrocarbons and water. Acids, fats and proteins are also hydrogenated, the hydrocarbons formed are cracked and hydrogenated: -- ksoOon nya Ne -- SaNovpion nya no s

EMN" and No-" ENAMNU chn! shi No-n shi Bon

The closest analogue from the field of oil refining is the process of hydrocracking of hydrocarbon fractions of oil (b). But the chemical processes of hydrocracking of hydrocarbon fractions of oil and vegetable oils are different. "

The process of hydrocracking of vegetable oils and fats must be carried out on bifunctional catalysts that ensure the hydrogenation and cracking of raw material components. To ensure high hydrogenation activity and moderate cracking activity, alumino-nickel and aluminum molybdenum catalysts can be used, in which "" Mo and Mi oxides are deposited on aluminosilicates or aluminum oxide, which has moderate cracking activity

According to the proposed method, the process of hydrogenation - hydrocracking is carried out at a temperature of 250 - 3509C and a pressure of 2-5 MPa. (oo) During hydrocracking of oils, mainly glycerides are cracked with the formation of a large amount of water. For example, -3 with full hydrocracking of 100Okg of rapeseed oil, 17Okg of water is formed. Therefore, a distinguishing feature of the technology is the introduction of a three-phase separator into the scheme - the installation scheme for the process of obtaining diesel fuel from vegetable oils and fats is shown in the figure. u-o Vegetable oils and fats (raw material) are mixed with circulating hydrogen-containing gas (HVG) and the mixture, after heating in "I tubular furnace 1 to 250-3502С, is fed into the hydrocracking reactor 2. The process must be carried out under a pressure of 2-5 MPa.

To regulate the temperature, cold hydrogen is supplied to the lower layer of the catalyst. In the high-pressure separator З, VVG is separated, part of it is removed from the installation, and the latter is fed to mixing with raw materials by the circulation compressor 5. Degree of circulation - 500 - V0Ω Z/m? raw materials Rotary or reciprocating compressors can be used in small capacity installations.

From the separator Z, the liquid is throttled into the three-phase separator 4, from which the hydrocarbon gas is removed, and the liquid is separated into the hydrocarbon fraction and water. In the rectification column b, diesel and gasoline fractions, as well as a heavy residue, are separated from the hydrocarbon fraction. The upper product of the rectification column 6 60 is mixed with the hydrocarbon gas of the three-phase separator 4 and their mixture is cooled and separated into hydrocarbon gas and gasoline.

When using an aluminum-nickel catalyst, the following yield of products is obtained, 9% by mass: hydrocarbon gas 2.5-3.5 6BE gasoline fraction 6.5 -10 diesel fuel 63-67 -Д-

heavy residue 3.5-6 water 16-18

Due to the fact that vegetable oils contain a very small amount of sulfur and nitrogen, the installation does not have a section for cleaning hydrocarbon gas (VVG), and VVG blowdown can be used as fuel, which significantly simplifies the technological scheme.

Hydrocracking, designed to convert vegetable oils and fats into high-cetane low-sulfur diesel fuel, is capable of processing a wide range of feedstocks, including feedstocks with a high content of 70 fatty acids. The expected yield of biodiesel fuel is 62 - 7095 at a cetane number (90-100), the sulfur content is less than 10 million". One of the advantages of biodiesel fuel obtained by this technology is the reduction of MOH emissions when using it.

However, hydrocracking requires a large amount of hydrogen. Therefore, the process in significant volumes can be organized in/5. At refineries or chemical plants where there is a hydrogen production process.

A positive effect of the invention is the use of high-quality biodiesel fuel, which extends the life of the engine and reduces emissions of harmful substances into the atmosphere, as well as saves non-renewable fuel resources.

List of references: 1. Mytusova T.N., Kalinina M.V., Danilov A.M. Biodiesel fuel // Neftepererabotka i neftekhimiya. 2004. Mo2. with 16-20. 2. Kovtun G. A. Biodiesel fuel // Bulletin of the National Academy of Sciences of Ukraine. 2005. Mo11. -with. 51-56.

Z. Zhelezna T. Biodiesel fuel // Green energy. - 2003. -Mo3. with. 9-11. 4. Pat. of Ukraine Mo14022, IPC (2006) C10I 1/00, Bull. Mo4, 2006. p. 5. Patent of Ukraine Mo 74986, IPC (2006) C10I. 1/02, Bull. Mo2, 2006. b. Kaminsky E.F., Khavkin V.A. Deep refining of oil: technological and ecological aspects. - M.: Tehnika, 2001. - 384 p. (8)

Claims (2)

The formula for the invention is cha, not c, 1. The method of obtaining diesel fuel from vegetable oils and fats by chemical transformations (22), which differs in that the chemical transformations are carried out by hydrogenation-hydrocracking of vegetable oils and fats with hydrogen on bifunctional catalysts, and the process is carried out until saturated hydrocarbons are obtained. 2. Installation for obtaining diesel fuel from vegetable oils and fats, which consists of a tubular furnace - connected by a pipeline to the reactor, a high-pressure separator, a circulating compressor, a rectification column containing a pipeline for the removal of gaseous products from above, and other auxiliary equipment the equipment, which is characterized by the fact that it additionally contains a three-phase separator equipped with a pipeline connected to the high-pressure separator and another pipeline for the removal of gaseous products, connected to the pipeline for the removal of gaseous products from the top of the distillation column. "- with . and? (ee) - - Fo what has) 60 b5