RU2595330C1 - Refuelling unit for liquefied gas - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, namely to mobile fuel filling modules, which serve for reception, storage, and distribution of liquefied gas. Refuelling module for liquefied gas includes housing with bottom, roof, and side walls equipped with through holes. In housing there are liquefied gas tank with double walls, pumping equipment, gas distribution stand, shutoff and regulating equipment, as well as trunk pipelines including main trunk providing tank filling with liquefied gas, and trunk connecting said tank with gas distribution stand. Refuelling module additionally contains bath for accidental spillage located under tank for liquefied gas, as well as cylinders with nitrogen, equipped with devices for supplying it into tank for liquefied gas and trunk pipelines. Housing of refuelling module contains partitions dividing it into nitrogen compartment, wherein cylinders with nitrogen located, process compartment, wherein tank for liquefied gas and bath for accidental spillage accommodated, pump compartment to house pumping equipment, and gas distribution compartment, wherein gas distribution stand located. Lower parts of housing walls are solid, and upper parts of housing walls, at least in area of process compartment, have installed ventilation grids on both sides, with through slots.

EFFECT: technical result achieved by implementation of invention, is easiness of use and safe operation of module.

6 cl, 2 dwg

Description

The invention relates to mechanical engineering, namely to mobile refueling modules for receiving, storing and dispensing liquefied gas.

Currently, it is urgent to develop mobile fueling modules that serve for refueling vehicles (for example, cars, yachts) with liquefied gas, which can be moved with the help of mobile cargo platforms and installed in a chosen place.

Thus, a fueling module is known, [RU 2243445], comprising a container for liquefied gas mounted on a single base, a gas dispenser, and pumping equipment for pumping and dispensing fuel (liquefied gas).

The module under consideration can be moved by placing the base with the structural units placed on it on the cargo platform.

The disadvantage of this device is the lack of a single enclosure in it, which protects the module from the effects of the external environment and unauthorized access.

Known refueling module [RU 121210], which is selected as the closest analogue.

The module under consideration is intended for refueling vehicles with liquefied gas, including liquefied natural gas.

The fueling module in question includes a container-type housing having a bottom, a roof, and side walls provided with through holes for natural ventilation of the interior of the housing. In particular, the walls of the housing are made of mesh material. There is a container for liquefied gas inside the casing, which has double walls for safety reasons. In the internal space of the casing there are pumping equipment providing reception and delivery of liquefied gas, including a fuel pump, as well as a gas dispenser equipped with gas distribution and calculation equipment. In addition, shut-off and control equipment, including ball valves and a bypass valve, and pipelines, which provide filling the tank with liquefied gas and supply it to the gas distribution column, are placed in the housing.

The presence in the device in question of a single enclosure provides protection from the effects of the external environment and unauthorized access, as well as the convenience of loading, transporting and installing it in the right place.

However, the device in question does not provide sufficient usability and a high degree of safety. This is due to the location of all structural units of the module in a single space of the housing, as well as the lack of equipment for collecting liquefied gas during depressurization of the tank and the execution of the side walls of the housing mesh, which can lead to the ingress of liquefied gas into the environment during its accidental spill.

The task of the invention is to improve the usability of the fueling module and the safety of its operation.

The essence of the invention lies in the fact that in the refueling module for liquefied gas, comprising a housing having a bottom, a roof and side walls provided with through holes located in the housing, a container for liquefied gas having double walls, pumping equipment, a gas dispenser, a shut-off and control valve equipment, as well as pipelines, including a line providing refueling of a container with liquefied gas, and a line connecting said container with a gas dispenser, according to the invention The refueling module additionally contains an emergency strait bath located under the liquefied gas tank, as well as nitrogen cylinders equipped with equipment for supplying it to the liquefied gas tank and pipelines, while the casing contains partitions separating it into the nitrogen compartment, which contains nitrogen cylinders, a technological compartment in which a liquefied gas tank and an emergency spill bath are located, a pump compartment in which the pumping equipment is located, and the gas distribution compartment in which the gas distribution column is located, the lower sections of the housing walls are solid, and ventilation grilles having through slots are installed on the upper sections of the housing walls on both sides of it, at least in the area of the technological compartment.

In the particular case of the invention, the roof of the housing in the area of the technological compartment is made inclined relative to the horizon.

In the particular case of the invention, in the roof of the housing in the area of the technological compartment there is a technological hatch, the lid of which is inclined relative to the horizon.

In a particular embodiment of the invention, the fueling module comprises a gas discharge system including a gas discharge pipe having a horizontally oriented section located in the technological compartment along the liquefied gas tank and a vertically oriented section, the lower part of which is located in the technological compartment and the upper part is located above the roof of the housing .

In the particular case of carrying out the invention, the refueling module comprises an evaporator located in the technological compartment, which provides pressure control in the liquefied gas tank, as well as a switching system that allows the evaporator to be connected either to the specified tank or to a piping line that allows filling the tank with liquefied gas or to the system gas discharge.

In the particular case of the invention, the refueling module comprises a control unit made in the form of a cabinet fixed to the pump compartment and equipped with a control panel.

The implementation of the inventive device in the form of a module having a single housing, inside of which all its components and assemblies are mounted, provides protection against environmental influences and unauthorized access. In addition, the presence of a container-type housing provides the convenience of loading the module onto a cargo platform, transporting it using mobile means and installing it in the right place without carrying out construction and significant installation work.

It is fundamentally important in the claimed module that its body is divided by partitions into separate compartments, while the liquefied gas tank is located in the technological compartment isolated from other compartments, and other equipment and apparatus are arranged in groups according to their functional purpose, and each group also located in a separate compartment.

The specified arrangement improves the usability and safety of the module.

Partitions perform the function of forming compartments isolated from each other in the housing, the presence of which provides ease of access and maintenance of groups of units and assemblies located in them, and also reduces the risk of gas from entering the compartment in case of leakage and contributes to fire safety. At the same time, in order to increase fire safety, it is advisable to use partitions made in fire protection.

To provide access to the compartments of the housing, they are equipped with openings that are closed by sashes or doors.

The safety of the module and the convenience of its maintenance are facilitated by the presence of an emergency strait bath located in the technological compartment located under the liquefied gas tank. The volume of the bath is selected from the condition of capacity in it of the nominal volume of liquefied gas in the tank.

To prevent the penetration of liquefied gas in the event of an emergency spill from the bath through the walls of the housing into the environment, the lower sections of the walls of the housing are solid.

The strait bath, in particular, can be structurally made as part of the body, where the walls of the bath are sheets welded together by hermetic seams, from which the lower parts of the walls of the body are formed.

To ensure natural ventilation of the internal space of the housing, at least in the area where the technological compartment is located, where gas accumulation in explosive concentrations to the greatest extent can occur during leakage, ventilation grilles are installed, the gaps of which serve as through holes. These lattices can be made in the form of blinds, the plates of which protect against direct sunlight from entering the housing.

The presence of nitrogen cylinders equipped with appropriate equipment makes it possible to purge the tank and pipelines to displace air from them, which is necessary for the safe operation of the module. Moreover, the installation of cylinders and the specified equipment in a separate compartment ensures their rational layout and ease of maintenance.

Thus, the technical result achieved by the implementation of the invention is to improve the usability and safety of the module.

In the case when the roof of the housing in the area of the technological compartment is inclined relative to the horizontal plane, the probability of accumulation of gases under the roof is reduced, which improves the safety of the module.

Similarly, in the case when there is a technological hatch on the roof of the casing in the area of the technological compartment, the lid of which is made inclined relative to the horizon, the probability of gas accumulation under the lid of the hatch is reduced, which improves the safety of the module.

In the case of the presence of the above gas discharge system in the module, an extended heating of the gas passing through it takes place on an extended horizontally oriented section of the gas discharge pipe, which reduces the energy consumption for heating the gas in order to achieve the normative required gas temperature when it is discharged. This helps to improve the safety of the module.

In particular, a ribbed profile made of two halves, in the form of a multi-beam star, is fixed on an extended horizontally oriented section of the gas discharge pipe, which allows to significantly increase the heat transfer surface, and a tape heater is placed, which is turned on in the case of an insufficiently high temperature of the discharge gas.

If there is an evaporator module in the technological compartment and its switching system described above, using the evaporator it is possible to carry out not only its main function - maintaining the required value of the pressure of the liquefied gas in the tank, but also other functions. So, when the evaporator is connected to the pipeline, which provides refueling of the tank with liquefied gas, the tank is refueled from an autonomous source (for example, tankers) according to the backup circuit due to the displacement of liquefied gas from an external source under the pressure created by the gas evaporating in the evaporator. In addition, when connecting the evaporator to the gas discharge system through the evaporator, it is possible to supply gas from the tank to the gas discharge system according to the backup scheme. This improves the usability of the module.

The specified switching system, in particular, includes a three-way valve, allowing you to include an evaporator in one of the above-described schemes of operation. The specified valve is controlled remotely or using an automatic pressure monitoring system in the tank 8.

In the case when the fueling module contains a control unit made in the form of a cabinet fixed in the pump compartment and equipped with a control panel, the usability of the module is improved by increasing the convenience of controlling its equipment.

In FIG. 1 schematically shows a General view of the claimed device; in FIG. 2 presents a drawing of a General view of the claimed device (in section).

The refueling module includes a housing having a bottom 1, a roof 2, and side walls 3 (in the drawing, one wall 3 is indicated by a reference).

In particular, the casing is made in the form of a frame having a rectangular shape, containing horizontal and vertical load-bearing elements, sewn with solid metal sheets.

The casing is divided by fire walls 4 into the nitrogen compartment 5, in which there are cylinders 6 with nitrogen, the technological compartment 7, in which the tank 8 (cryogenic) for liquefied gas and a bath 9 of the emergency strait, the pump compartment 10, in which the pumping equipment 11 for receiving and dispensing liquefied gas, including a fuel (cryogenic) pump, and a gas distribution compartment 12, in which a gas distribution column 13 is provided, equipped with gas distribution equipment.

Locking and adjusting equipment (not shown in the drawing) is mounted inside the housing, and pipelines (not shown) are located, including a line that allows filling the tank 8 with liquefied gas, and a line connecting the specified tank 8 to the gas distribution column 13.

Cylinders 6 with nitrogen are equipped with equipment (not shown in the drawing) that ensures the supply of nitrogen to the pipelines to remove air from them, as well as the supply of nitrogen (in emergency mode) to the tank 8.

The lower sections of the walls 3 of the casing are solid, and on the upper sections of the walls of the casing on both sides in the zone of arrangement of the nitrogen compartment 5, the technological compartment 7 and the pump compartment 10, ventilation grilles 14 are installed (in Fig. 2, the part indicates the grilles) through holes .

In particular, the housing consists of upper and lower parts connected to each other by means of fasteners (bolts). At the same time, the lower part of the body is integral and made integral with the bottom 1, the lower sections of the walls 3, the nitrogen compartment 5, the pump compartment 10 and the gas distribution compartment 12, and the height of the lower sections (sides) of the walls 3 corresponds to the height of the walls of the bathtub 9 of the strait. The upper part of the body includes a roof 2 and the upper sections of the walls 3.

The tank 8 for liquefied gas has double walls 15. The interwall space of the tank 8 is evacuated and filled with a heat insulator, in particular a cryogel or a loose insulator. Thereby, a high degree of thermal insulation of the inner shell of the tank 8, designed to store liquefied, in particular natural gas, is achieved.

In particular, the tank 8 is equipped with a node (not shown) of the medium monitoring in the inter-wall space, including sensors, which make it possible to judge the parameters of the medium in the specified space.

The roof 2 in the area of the technological compartment 7 is made slightly inclined relative to the horizontal plane.

In the roof 2 there is a technological hatch 16, the lid of which is also made inclined relative to the horizon plane.

The module comprises a gas discharge system including a gas discharge pipe 17 having a horizontally oriented section (not shown in the drawing) located in the technological compartment 7 along the liquefied gas tank 8, and a vertically oriented section, the lower part of which is located in the technological compartment 7, and the upper part located above the roof 2.

The module contains an evaporator 18 located in the technological compartment 7, as well as a switching system (not shown in the drawing), which allows the evaporator 18 to be connected to a tank 8, or to a piping line that provides filling the tank 8 with liquefied gas (not shown), or to a system gas discharge, including gas discharge pipe 17.

Inside the pump compartment 10 is placed a control unit 19, made in the form of a cabinet fixed in the pump compartment 10, equipped with a control panel. In particular, to improve ease of use, the control unit 19 is fixed with the possibility of a turn around the axis of fixation by 90 degrees.

Capacity 8 is oriented horizontally and mounted in the housing on saddle supports 20.

The device operates as follows.

The fuel module is transported by a vehicle to its installation site.

Before or after the module is transported, liquefied gas is pumped into the tank 8 from an external source (tank truck) according to the main circuit using the cryogenic pump 11 located in compartment 10 or by the backup circuit using the evaporator 18. Before pumping and after the liquefied gas is pumped, the pump is purged from cylinders 6 to the nitrogen of the line, which provides filling the tank 8 with liquefied gas.

The issuance of fuel (liquefied gas) to the consumer is carried out using a gas dispenser 13 equipped with gas distribution equipment. Connect the filling valve of column 13 to the cryobank of the vehicle, enter the necessary data into the gas distribution column 13, and refuel the vehicle with liquefied gas using pump 11. The liquefied gas remaining in the fuel delivery line evaporates and is discharged into the gas discharge system 17 as it heats up.

The process of injection and delivery of fuel is regulated using locking and control equipment and is controlled using the control unit 19.

In the event of a pressure drop in the tank 8 (in particular, at a fuel consumption) in the automatic mode, a signal is generated from the pressure sensor to raise the pressure in the indicated tank by pressurizing a portion of the gas discharged from the tank 8 and passed through the evaporator 18.

Claims (6)

1. A refueling module for liquefied gas, comprising a housing having a bottom, a roof and side walls provided with through holes, a liquefied gas tank located in the housing having double walls, pumping equipment, a gas dispenser, shut-off and control equipment, and pipelines including a line providing refueling of a container with liquefied gas, and a line connecting said container with a gas dispenser, characterized in that the fueling module is an additional but contains a bath of emergency strait, located under the tank for liquefied gas, as well as nitrogen cylinders equipped with equipment for supplying it to the tank for liquefied gas, and pipelines, while the housing contains partitions separating it into the nitrogen compartment in which are located nitrogen cylinders, a technological compartment in which a container for liquefied gas and an emergency spill bath are located, a pump compartment in which the pumping equipment is located, and a gas distribution compartment in which on the gas dispenser, the lower sections of the housing walls are solid, and on the upper sections of the housing walls on both its sides, at least in the area of the technological compartment, ventilation grilles are installed with through slots. 2. The refueling module according to claim 1, characterized in that the housing roof in the area of the technological compartment is inclined relative to the horizon plane. 3. The refueling module according to claim 1, characterized in that in the roof of the housing in the area of the technological compartment there is a technological hatch, the lid of which is inclined relative to the horizon. 4. The refueling module according to claim 1, characterized in that it comprises a gas discharge system including a gas discharge pipe having a horizontally oriented section located in the technological compartment along the liquefied gas tank and a vertically oriented section, the lower part of which is located in the technological compartment, and the upper part is located above the roof of the housing. 5. The fueling module according to claim 1, characterized in that it contains an evaporator located in the technological compartment, which provides pressure control in the tank for liquefied gas, as well as a switching system that allows the evaporator to be connected either to the specified tank or to a pipe line providing fueling tanks with liquefied gas, or to a gas discharge system. 6. The refueling module according to claim 1, characterized in that it comprises a control unit made in the form of a cabinet fixed to the pump compartment and equipped with a control panel.

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