DE3114218A1 - "METHOD FOR THE SYNTHETIC PRODUCTION OF UREA USING SILICON CARBIDE MATERIALS IN THE PLANT" - Google Patents

Description

Applicant: TOYO ENGINEERING CORPORATION

No, 2-5, Kasumigaseki 3-chome, Chiyoda-ku _r Tokyo, Japan

MITSUI TOATSU CHEMICALS, INCORPORATED No. 2-5, Kasumigaseki 3-chome, Chiyoda-ku, Tokyo, Japan.

Process for synthetically producing urea using silicon carbide materials in the plant.

The present invention relates to a method for synthetic Manufacture of urea using silicon carbide materials in the facility.

Corrosion of building materials is a serious problem in a plant because of a process for the synthetic production of Urea has to deal with high temperature, high pressure and highly corrosive process fluid. In particular, requires a pressure reducing valve the use of special material

rial, with the valve between a synthesizing tower, in those below 150 to 250 atm. (bar) pressurized process fluid for the synthetic production of urea is introduced, and a decomposition vessel is located in which unreacted Ammonia and carbon dioxide are separated and recovered. The reason for this the special material required is, is that highly corrosive process fluid of high temperature and high pressure is introduced, the pressure thereof is decreased by the pressure reducing valve, and then flows out at high speed. Hence occurs extremely strong chemical and physical damage to parts of the valve due to corrosion and erosion due to wear or leaching on, which makes the life of a pressure reducing valve made of conventional material very short.

Traditionally, stainless steel or zircon and zircon alloys have been the materials used for equipment were used in which synthetic manufacturing processes for urea were carried out.

For example, when using austenitic stainless steel as a material was used for an equipment for carrying out the process, problems arose because of its inadequate corrosion resistance caused the dissolution of material due to corrosion during use, resulting in premature Failure of the pressure reducing valve resulted.

On the other hand, zirconium and zirconium alloy have been tentatively used for the practical application used as they have high corrosion resistance under the conditions and in the environment for the synthetic Have production of urea. However, the hardness of zircon and zircon alloy is low; for example the hardness of zircon with 99.5% purity only 150

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Brinell hardness, so / has almost the same value as soft steel. Therefore, zirconium and zirconium alloy can be damaged by mechanical attack and so, for example, in a urea synthesis plant in which a pressure reducing valve

Made of zirconium, the valve is quickly due to erosion of wear and tear or leaching during the water or ammonia water circulation operation prior to the production of Urea is damaged, which leads to the failure of the valve. To alleviate this problem, last was Time a pressure reducing valve from such a physical resp. mechanically strong material such as stainless steel is used during the water or ammonia water circulation operation and then this valve was replaced by a valve made of highly corrosion-resistant material such as zirconium, before the urea her positioning process was set in motion. So that is to say that the current practice is that the valve is made of one Material through one of a different material depending on the type of fluid passing through the valve, is replaced, but this practice naturally makes the operation of a plant for the synthetic production of urea cumbersome and uneconomical and at the same time brings both the possibility of unexpected damage caused by the change caused by the operating conditions, as well as the problem of the safety of an installation that is subject to high Temperature and high pressure conditions is operated.

The object of the present invention is to provide a method for the synthetic production of urea, the one long uninterrupted operation with high stability regardless of the operating conditions allowed by the above Problems of erosion due to wear and tear and leaching and corrosion are solved in a urea synthesizer procedures occur.

This object is achieved in that silicon carbide in plant parts which are particularly affected by the damage is used.

The invention is illustrated below using exemplary embodiments Explained in more detail with reference to the accompanying drawing.

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The accompanying drawing is a schematic section through an embodiment of the present invention.

As described above, in a method of synthetically producing urea, there is a tendency that Excessive corrosion and erosion due to wear and tear or leaching in such system parts as a pressure reducing valve appear. In order to prevent such damage from occurring, it is necessary to use materials with high To use corrosion resistance and high wear resistance in system parts that lead to this corrosion and erosion.

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basic / tend to wear and wash out. Silicon carbide is a material that meets these requirements. The silicon carbide materials include either a material made only of silicon carbide (simple silicon carbide) or a coated material in which a base material made of metals, ceramics or graphite is coated with silicon carbide by a coating method such as plasma spraying, chemical vapor deposition or physical vapor deposition. A silicon carbide material having a high density of not less than 2.9 specific gravity (g / an) is preferred over other silicon carbide materials.

A specific embodiment of the present invention will now be described with reference to the accompanying drawings. A silicon carbide material is used in a pressure reducing valve in this embodiment. The drawing is a schematic section through the pressure reducing valve, a valve body 1, a fluid inlet port 2, a cone valve 3 and a valve seat ring 5 contains. A process fluid under high temperature and pressure passes through the inlet port 2 into the valve body 1 and flows through the free space between the tip 4 of the cone valve 3 and the upper one Edge of the inner surface 6 of the valve seat insert 5, the pressure of the process fluid then being reduced. The relationship

3 1 H 2 1 3

or the rate of pressure reduction will then increase and decrease Downward movement of the cone valve 3 is controlled. In practice, the tip 4 of the cone valve and the inner surface are 6 the process fluid flowing at high speed exposed and subject to severe corrosion and erosion due to leaching and wear. That is why it is necessary To use materials with high corrosion resistance and high abrasion resistance on this part of the pressure reducing valve. In the embodiments according to the present invention, a silicon carbide material is used here.

In the above example only one pressure reducing valve was described, however, silicon carbide materials can be used on any part of such equipment that the highly corrosive process fluid in urea synthesizing plants exposed, these materials are particularly effective in areas where fluid with high Speed flows. This is also the case, for example, with the use of silicon carbide materials very effective in valves in recycling lines.

With respect to the present invention, methods using silicon carbide materials are conventional Process for the synthetic production of urea.

According to the present invention, the use of highly corrosion-resistant and wear-resistant silicon carbide has been achieved in urea synthesis plants eliminates the need for valves caused by corrosion or by leaching erosion caused during operation can be damaged, replaced or depending on the type of process fluid used to switch between valves with different materials, as this necessitates the lack of suitable materials originated. The use of silicon carbide also prevents damage caused by varying operating conditions.

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conditions arise / improve the safety and stability in the operation of a urea synthesis plant, which under high temperature and high pressure conditions, and improves the overall operating efficiency of the plant.

Claims (4)

Claims Process for the synthetic production of urea, in which materials from silicon carbides in the plant are used, characterized in that these silicon carbide materials are used in parts of the system that are resistant to corrosion and erosion caused by wear and tear or leaching are susceptible. 2. The method according to claim 1, characterized in that the silicon carbide as a simple or uniform substance is used. ι ι 'ι ί. Ι υ 3. The method according to claim 1, characterized that the silicon carbide is used as a coating material. 4. The method according to any one of claims 1 to 3, characterized in that the Silicon carbide materials can be used in pressure reducing valves.