RU2752720C1 - Mobile module-type adsorber - Google Patents

Abstract

FIELD: treatment of gas.

SUBSTANCE: invention relates to equipment for adsorption treatment of gases from impurities, particularly hydrocarbon gases from hydrogen sulphide, water and other components, and can be used in oil refining, gas processing, chemical and other branches of industry. The adsorber-heat exchanger for treatment of gases with solid sorbents includes a container comprising pipes filled with sorbent, wherein the treated gas is passed through said pipes, and has an insulated interpipe space for the cooling agent, the outer walls of the adsorber are made in form of a standard sea container for convenient transportation and quick connection at the site of operation, the adsorber has two flanges from the ends for the inlet and outlet of the treated gas and the heat carrier gas. The pipes in the lower part of the adsorber are connected in pairs by U-shaped or rectangular crossbars in the direction of gas flow for sequential transfer of gas. In the upper part of the adsorber, two rows of pipes in the direction of gas flow are combined together into a unified isolated space bounded by walls in the direction of gas flow for the passage of gas through said space from one row of paired pipes to the next one. The unified isolated space bounded by walls has a removable cover on the upper wall for loading and unloading the sorbent. The cover is located inside the unified isolated space and abuts from the inside against the edges of the wall with a hole, and when the pressure inside the unified isolated space is increased, the gas presses the cover more tightly to the edges of the hole.

EFFECT: invention ensures creation of mobile adsorber-heat exchangers with large capacity, allowing to regenerate the adsorbent without extraction, capable of being promptly delivered by freight, railway and sea transport to any point on the planet and assembled on site in a matter of days.

5 cl, 5 dwg

Description

The invention relates to equipment for adsorptive cleaning of gases from impurities, in particular hydrocarbon gases from hydrogen sulfide, water and other components, and can be used in oil refining, gas processing, chemical and other industries.

An adsorber is known, including a cylindrical body with upper and lower bottoms, a purified gas inlet and purified gas outlet, a regeneration gas inlet and outlet, a lower distribution grate, on which an adsorbent layer is placed on a layer of an inert substrate made of gravel or ceramic, porcelain or metal nozzles, hatches for loading and unloading the adsorbent (Kel'tsev N.V. Basics of adsorption technology. M .: Chemistry, 1984. S. 222-223, Kasatkin A.G. Basic processes and apparatuses of chemical technology. M .: Chemistry, 1973. S. 446-448) (analogue). The main disadvantages of the analog are:

- stationary version of the adsorber, which implies the construction of buildings at the site of operation, premises for its installation;

- impossibility of heating the adsorbent without contact with the coolant during the regeneration process;

- the uneven distribution of the flow of the purified gas over the normal section of the adsorbent bed due to the fact that the outlet of the purified gas through the upper choke, which has a many times smaller cross section than the normal section of the adsorbent layer, leads to the formation of stagnant zones around the outlet of the purified gas, which has the form of a truncated a cone, which leads to a decrease in the activity of the adsorbent and a decrease in the duration of the adsorption stage, which worsens the economic performance of the adsorption gas purification process;

- the presence of an inert substrate layer increases the dimensions and material consumption of the adsorber, which indirectly leads to an increase in the fixed assets of the installation for adsorption gas purification;

- a layer of inert substrate, consisting of gravel particles or packing with sizes larger than granules, has large transport channels with a diameter slightly smaller than the size of adsorbent granules, this allows solid and liquid particles in the stream of the purified gas to pass into the adsorbent layer, while liquid particles impregnate the adsorbent granules , and solid particles clog small transport pores between the granules, which in both cases leads to a decrease in the activity of the adsorbent and a decrease in the duration of the adsorption stage, which worsens the economic performance of the adsorption gas purification process.

An adsorber is known, including a housing, a gas supply pipe for cleaning, a clean gas outlet, a container with a sorbent, a pressure device in the form of a grid, a support ring with double-acting pneumatic cylinders, the pistons of which are connected to the grid and connected using two manifolds, two three-way valves and of the pipeline to the gas inlet pipe, devices for controlling the sorbent shrinkage are installed on the pipes for filling the sorbent (RF patent for invention No. 2305003) (analogue). The disadvantages of this analogue are:

- stationary version of the adsorber, which implies the construction of buildings at the site of operation, premises for its installation;

- impossibility of heating the adsorbent without contact with the coolant during the regeneration process;

- excessive complexity of the adsorber design to ensure the compaction of the adsorbent layer during its shrinkage, leading to a significant increase in the cost of the structure as a whole;

- the presence of moving parts in the adsorber structure (pistons in pneumatic cylinders, pressure device) increase the potential accident rate of the adsorber;

- in the presence of solid and liquid particles in the flow of the gas being purified, the particles freely penetrate into the adsorbent layer, while the liquid particles soak the adsorbent granules, and the solid particles clog the small transport pores between the granules, which in both cases leads to a decrease in the adsorbent activity and a decrease in the duration of the adsorption stage , which worsens the economic performance of the adsorption gas purification process.

An adsorber is also known, including a vertical body, divided by perforated zigzag partitions into sections with the formation of alternating staggered convergers and diffusers, upper and lower grilles and branch pipes for the gas outlet and supply, while the gas supply pipe is a tapering truncated cone made of elastic-elastic material , on the inner surface of which there are screw-shaped longitudinally located grooves, and the grooves are structurally made in the form of a "dovetail", while in the direction from the larger base of the gas supply pipe to its smaller base, uniformly at a horizontal level between the screw-shaped longitudinally located grooves, outlet ports are located, having the same diameter at one horizontal level and increasing at subsequent horizontal levels as the gas to be cleaned moves from the larger base of the gas supply pipe to its smaller base, in addition, the smaller base of the supply pipe gas is muffled by elastic-elastic material, and on the inner surface of the gas outlet pipe there are helical longitudinally located grooves, the tangent of which has a clockwise direction, and on the inner surface of the gas supply pipe, which is a tapering truncated cone, the tangent of the helical longitudinally located grooves has the direction counterclockwise, while the perforated zigzag partitions are made of bimetal, and the bimetal material of the inner surface of the confuser has a thermal conductivity coefficient 2-2.5 times higher than the coefficient of thermal conductivity of the bimetal material of the inner surface of the diffuser (RF patent for utility model No. 141495 (analog). The disadvantages of this analogue are:

- stationary version of the adsorber, which implies the construction of buildings at the site of operation, premises for its installation;

- impossibility of heating the adsorbent without contact with the coolant during the regeneration process;

- excessive complexity of the adsorber design by installing perforated zigzag partitions in it, since the formation of convergers and diffusers alternating in a checkerboard pattern with perforations in them and a low average linear velocity of the gas being purified cannot lead to intensification of the adsorption cleaning process and only increases the material consumption of the apparatus;

- in the presence of solid and liquid particles in the flow of the gas being purified, the particles freely penetrate into the adsorbent layer, while the liquid particles soak the adsorbent granules, and the solid particles clog the small transport pores between the granules, which in both cases leads to a decrease in the adsorbent activity and a decrease in the duration of the adsorption stage , which worsens the economic performance of the adsorption gas purification process.

Also known is a vertical adsorber with a fixed bed of adsorbent, containing a vertical housing, a support grid with a bulk adsorbent bed, metal separating grids and layers of ceramic balls placed on the support grid and on top of the adsorbent layer, a fitting on the upper bottom of the adsorber body for the input of the processed gas (outlet of the regeneration gas), a fitting on the lower bottom of the adsorber body for the outlet of the processed gas (inlet of the regeneration gas), distribution devices for the processed regeneration gas, characterized in that a horizontal annular perforated partition is placed above the upper layer of the adsorbent covered with a layer of ceramic balls, overlapping the cross-section of the housing adsorber, the central part of which is made in the form of a conical cup expanding upward, at the bottom of which through holes are provided, while in the perforated partition in the area between the conical cup and the adsorber body holes with different diameters and distances between them (RF patent for invention No. 2530112) (analogue).

The disadvantages of this analogue are:

- stationary version of the adsorber, which implies the construction of buildings at the site of operation, premises for its installation;

- impossibility of heating the adsorbent without contact with the coolant during the regeneration process;

- the presence of two layers of ceramic balls, between which an adsorbent layer is placed, leads to a significant increase in the hydraulic resistance when the gas being purified passes through the adsorber and a corresponding increase in energy consumption for the gas purification process;

- in the presence of solid and liquid particles in the flow of the gas being purified, the particles freely penetrate into the adsorbent layer, while the liquid particles soak the adsorbent granules, and the solid particles clog the small transport pores between the granules, which in both cases leads to a decrease in the adsorbent activity and a decrease in the duration of the adsorption stage , which worsens the economic performance of the adsorption gas purification process.

The closest invention is a vertical adsorber, which contains a cylindrical body with a lid and a bottom, a loading hatch is mounted in the lid, a connection for feeding the initial mixture with a distribution grid, a connection for removing vapors during desorption and a connection for a safety valve, and at the junction of the cover and the body a stiffening ring is provided, and beams with supports are installed on the support ring in the middle part of the body, supporting the grate, on which a gravel layer is laid, and the adsorbent layer is located between the gravel layer and the mesh on which loads are located to prevent the adsorbent carryover during desorption, and unloading of the spent adsorbent is carried out through an unloading hatch installed in the body, and a bubbler and an inspection hatch with a fitting for condensate drainage and water supply are mounted in the bottom, the bubbler is made of toroidal shape and fixed on the conical surface of the bottom by means of spacers (RF patent for invention No. 2508932) (prototype ).

The disadvantages of this prototype are:

- stationary version of the adsorber, which implies the construction of buildings at the site of operation, premises for its installation;

- impossibility of heating the adsorbent without contact with the coolant during the regeneration process;

- the use of adsorbents with low adsorption activity and selectivity (porous polymeric materials, glass, porous rubber, composite materials, wood, stainless steel, titanium alloys, noble metals) are not technologically advanced and expensive to manufacture, since the adsorbent granules are in the form of a cylindrical ring, to the side surface of which two hemispherical surfaces are attached opposite to each other in such a way that the diametrical planes of the hemispheres coincide, respectively, with the upper and lower bases of the cylindrical ring, and the tops of the hemispherical surfaces are on the axis of the ring and are directed towards each other;

- the ratio of the height H of the cylindrical part of the body to its diameter D is at the ratio of the values H / D = 0.73 ... 1.1 and the ratio of the height of the adsorbent layer H1 to the height H of the cylindrical part of the body with the ratio of values: H1 / H = 0.22 ... 0.55 is not optimal, since to ensure high adsorption activity of the adsorbent, the height of its layer in the adsorber must be many times greater than the length of the mass transfer zone, while the ratio of H / D values is significantly greater than 2;

- in the presence of solid and liquid particles in the flow of the gas being purified, the particles freely penetrate into the adsorbent layer, while the liquid particles soak the adsorbent granules, and the solid particles clog the small transport pores between the granules, which in both cases leads to a decrease in the adsorbent activity and a decrease in the duration of the adsorption stage , which worsens the economic performance of the adsorption gas purification process.

An analysis of the patent and technical literature showed that in the presence of individual shortcomings, the considered designs of adsorbers have common significant drawbacks: a stationary design of the adsorber, which implies the construction of buildings, premises for its installation at the site of operation, and the impossibility of heating the adsorbent without contact with the coolant during the regeneration process.

When creating the invention, the task was to develop the design of the adsorber-heat exchanger in a modular mobile version, which allows it to be quickly delivered to any place in the world. In this case, the adsorber should have the maximum possible capacity of the sorbent and the ability to heat the sorbent to the regeneration temperature.

The problem is solved due to the fact that the outer walls of the adsorber for gas cleaning are made in the form of a standard sea container for easy transportation and quick binding at the site of operation (Fig. 1). Standard sizes allow you to quickly deliver containers anywhere in the world, using the logistic chains of transport companies. In the inner part, the adsorber includes pipes filled with sorbent through which the gas to be cleaned is passed, and has an isolated annular space for the heat carrier (Fig. 2). This allows the sorbent to be heated with the heat carrier during regeneration without direct contact of the heat carrier with the sorbent, since the contact of the heat carrier - hot air with the sorbent often leads to its deactivation. The pipes in the lower part of the adsorber are connected in pairs by U-shaped or rectangular bridges in the direction of gas movement for sequential gas transfer, the welded joints of which ensure the tightness and safety of the adsorber (Fig. 3). In the upper part of the adsorber, two rows of pipes in the direction of gas movement are interconnected into a single isolated space bounded by walls in the direction of gas movement for the gas to pass through this space from one row of paired pipes to the next (Fig. 4). A single insulated space bounded by walls has a removable cover on the upper wall for loading and unloading the sorbent. The cover is located inside a single isolated space and rests from the inside against the edges of the wall with a hole, and when the pressure inside the single isolated space rises, the gas presses the cover more tightly to the edges of the hole. This design, when the cover is pressed more tightly against the edges of the wall when the pressure rises, can significantly reduce the likelihood of a flammable gas leak with a subsequent explosion, significantly increasing the safety of the adsorber.

At the ends, the adsorber has two flanges for the inlet and outlet of the gas to be cleaned and the heat carrier gas (Fig. 5).

Thus, the claimed invention provides a solution to the problem posed - the development of an adsorber design in a modular mobile container version that allows it to be quickly delivered to any part of the planet with the maximum possible sorbent capacity and the ability to regenerate the sorbent by contactless heating with a coolant without removing it from the adsorber.

Claims (5)

1. Adsorber-heat exchanger for cleaning gases with solid sorbents, including a container containing pipes filled with sorbent, through which the gas to be cleaned is passed, and having an isolated annular space for the coolant, characterized in that the outer walls of the adsorber are made in the form of a standard sea container for easy transportation and quick binding at the site of operation, the adsorber has two flanges at the ends for the inlet and outlet of the gas to be cleaned and the heat carrier gas. 2. Adsorber-heat exchanger according to claim 1, characterized in that the pipes in the lower part of the adsorber are connected in pairs by U-shaped or rectangular bridges in the direction of gas movement for sequential gas transition. 3. An adsorber-heat exchanger according to claim 1, characterized in that two rows of pipes in the direction of gas movement in the upper part of the adsorber are combined with each other into a single isolated space bounded by walls in the direction of gas movement for gas to pass through this space from one row of pairwise connected pipes to the next. 4. Adsorber-heat exchanger according to claim 3, characterized in that the single isolated space bounded by the walls has a removable cover on the upper wall for loading and unloading the sorbent. 5. Adsorber-heat exchanger according to claim. 4, characterized in that the cover is inside a single isolated space and rests from the inside against the edges of the wall with the hole, and when the pressure inside the single isolated space rises, the gas presses the cover more tightly to the edges of the hole.

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