DE102016004116A1 - Filling a compressed gas tank - Google Patents

Abstract

The invention relates to a method and a device for filling a compressed gas tank at a refueling system, wherein an adapter, which comprises a pressure-dependent closing valve is mounted on the compressed gas tank, and the adapter is connected to the refueling system, and then the gas supply is started and the pressure-dependent Closing valve on reaching a predetermined pressure, the gas supply interrupts.

Description

The invention relates to a method for filling a compressed gas tank on a refueling system and to a device for this purpose.

More and more vehicle manufacturers present motor vehicles that are powered by gaseous fuels such as natural gas, LPG or hydrogen. These include not only passenger cars, but also buses, trucks and forklifts. So far, however, there is still no nationwide network of gas stations, especially at hydrogen filling stations, available. The users of gas-powered vehicles must therefore pay close attention to the range to reach the nearest gas station. Nevertheless, with increasing numbers of gas-powered vehicles, especially hydrogen vehicles, it can happen more often that in a vehicle, the fuel is not sufficient to go to a gas station. For example, an unforeseen event, such as a traffic jam or detour, may require a longer range. It is therefore necessary to provide a method for emergency refueling to avoid a complicated towing the vehicle. Are known mobile gas stations for hydrogen (for example EP2481969 ) or natural gas (for example CN103574283 ). There are mostly on truck storage tanks and a gas delivery unit, which may include additional pumps and / or compressors mounted. The provision of such mobile gas stations is expensive and expensive due to the provision of a fully equipped vehicle. In addition, a driver with special driver's license for the truck must be provided. As a result, only a few mobile gas stations can be kept ready and the approach of the mobile gas station to the breakdown vehicle may be tedious and the coverage of the road network therefore insufficient.

Easier to implement is an emergency refueling of gaseous fuel, outside gas stations, with compressed gas tanks, especially with mobile or portable gas cylinders.

Compressed gas containers can be carried by a breakdown service or placed at various public gas stations or other strategically appropriate locations. With a pressurized gas container, a vehicle can usually not be fueled. The refilling of the compressed gas tank must be done so far but in special filling. For the breakdown service or the appropriate person responsible for the compressed gas tank, this means an additional logistical effort.

The object of the present invention is therefore to specify a method with which pressurized gas containers can be filled at public refueling installations. As a public refueling a gas station, especially a hydrogen refueling station understood, which is not operated by trained personnel unlike a special refueling system or a filling plant. These gas stations are similar to conventional petrol stations accessible to private customers and allow independent refueling of the vehicle. The filling of the compressed gas containers should be carried out by normal persons after a short instruction or by a simple instruction manual.

This object is achieved in terms of the method in that an adapter which comprises a pressure-dependent closing valve is mounted on the compressed gas container, that the adapter is connected to the refueling system, that the gas supply is started and that the pressure-dependent closing valve interrupts the gas supply upon reaching a predetermined pressure ,

The pressure-dependent closing valve prevents over-filling of the compressed gas tank. It can be triggered mechanically or via a sensor and interrupts the gas supply into the pressurized gas container. The refueling system takes the resulting increase in pressure in the supply line or in the gas delivery unit and stops the delivery of the gas.

Compressed gas containers are normally filled in filling stations by trained specialist personnel. These feeders are equipped with appropriate safety devices to prevent overfilling, but not the pressurized gas containers themselves. Therefore, pressurized gas containers outside of these filling stations can only be refueled if additional safety devices are used. These are realized in the adapter according to the invention by the pressure-dependent closing valve. In compressed gas tanks that are permanently installed as storage tanks in vehicles, such safety devices are already integrated in the vehicle.

The predetermined pressure preferably corresponds to the maximum filling pressure or design pressure of the compressed gas container and is in particular 200, 300 or 700 bar. Conventional compressed gas cylinders generally have a maximum filling pressure of 200 or 300 bar, only rarely is a compressed gas container designed for a filling pressure of 700 bar. It is understood that small deviations from the maximum filling pressure, in particular due to fluctuations in the ambient temperature, must be tolerated. Thus, the maximum filling pressure is in particular between 180 and 220 bar or between 280 and 320 bar or between 680 and 720 bar.

As pressurized gas containers or compressed gas cylinders containers are understood, which are used for the storage of gases under pressure. These are preferably steel or aluminum gas cylinders with a volume of between 1 and 50 liters. The compressed gas cylinders are preferably designed in terms of weight and size so that they can be handled by a person and are portable. Gas cylinders, for example, which are not exclusively made of steel, but of a composite of metal and plastic, and are therefore particularly light, are particularly suitable as compressed gas containers. Compressed gas cylinders can in particular have good grip handles and / or transport wheels whereby the gas cylinders can be easily and easily brought to the place of use. Preferably, the compressed gas containers may additionally be equipped with a digital valve, which indicates the current filling status. The gas cylinders are preferably designed for a working pressure of 300 bar and have a volume of 20 liters.

However, the conventional refueling systems advantageously used are set to a maximum design pressure of 350 and / or 700 bar. The refueling system is, in particular, a refueling station for refueling vehicles with gas, and in particular a hydrogen refueling station. The storage tanks in vehicles usually contain tanks for storing hydrogen at 350 or 700 bar. The maximum filling pressure can be set, for example, by activating a switch or an identification of the vehicle at the pump. Depending on the maximum filling pressure, the storage tank is then refueled with a special filling ramp. For example, the development of heat during the filling of compressed gas tanks with compressed gases must also be given special attention. A refueling of storage tanks with hydrogen at less than 350 bar is therefore not possible without additional devices at a hydrogen filling station. By using the adapter, which regulates the shutdown when reaching the maximum filling pressure of the compressed gas tank, but these can be filled easily and without specialist personnel.

Another option for increasing the safety when filling pressurized gas containers at refueling systems is that such refueling stations are equipped with additional programming. Advantageously, public gas stations are also equipped with a programming for filling of compressed gas tank with 300 bar. This programming can be activated, for example, via a button, a switch or by identification with a card or by scanning a code on the pressurized gas container. By this programming, for example, a lower filling ramp can be set, so that overheating of the compressed gas container is avoided and it can be completely filled. The programmed filling method also particularly preferably takes into account the special properties of compressed gas containers, which consist of a composite of metal and plastic. The pressure ramp must preferably be selected during filling so that a maximum temperature of -50 ° C to 65 ° C arises inside the container. Since these lightweight compressed gas containers are constructed in a composite construction and not of a uniform material, such as steel, such as conventional gas cylinders, expansion of the material must be given special consideration in the case of thermal differences. In a preferred embodiment, the adapter may additionally comprise a temperature sensor, in particular for measuring the temperature in the interior of the compressed gas container.

Advantageously, the gas supply is started only after the pressurized gas container has been connected to the refueling system via the adapter and the tightness of the system has been checked via a pressure surge. This procedure can be carried out similarly to the refueling regulations for storage tanks in vehicles.

As the gas, hydrogen or natural gas is advantageously used.

On the device side, the object is achieved in that the device for connecting the compressed gas container with the refueling system comprises an adapter with a pressure-dependent closing valve as a safety valve. Particularly preferably, the pressure-dependent closing valve is designed such that it closes upon reaching a predetermined pressure, in particular at 200, 300 or 700 bar. Advantageously, in addition, a percentage or absolute tolerance with respect to the predetermined pressure can be set. Thus, the predetermined pressure is in particular between 190 and 210 bar or between 290 and 310 bar or between 690 and 710 bar.

Preferably, the adapter comprises a data interface. This can in particular be associated with a control unit of the refueling system, so that upon reaching a maximum filling pressure or predetermined pressure, the safety valve is closed.

In a further preferred embodiment of the adapter, an opening of the adapter is configured as a nozzle, via which the filling ramp and / or pressure ramp is regulated by limiting the mass flow.

Gas cylinders with hydrogen are used not only for emergency refueling of vehicles but also, for example, for the operation of fuel cells in small appliances, such as electric bicycles. Their storage bottles could also be filled with an adapter according to the invention and the corresponding method.

The adapter is also necessary because pressurized gas containers usually have only a screw thread. At petrol stations, however, usually only nozzles are available. The adapter must therefore have a receiving device for this nozzle. The adapter can be designed in a further embodiment so that it also a hose for emergency refueling of the vehicle can be mounted. The adapter can thus remain on the pressurized gas container, which is provided for emergency refueling. This simplifies the handling of the compressed gas tanks, since the operator has to perform a few work steps. This increases the safety of the process.

An advantage of using the adapter is that can be realized by the fast and easy refilling of gas cylinders, a close-meshed distribution of compressed gas tank for emergency refueling of vehicles. For the driver of gas-powered vehicles, this results in a greater certainty that the vehicle does not have to be towed directly to reach the nearest possible gas station. This can increase the attractiveness of alternative drive systems, such as the use of hydrogen fuel cells, for customers.

Another advantage in the use of the adapter is that no special refinements of gas stations such as a separate hose that can be connected directly to the screw thread of the gas cylinder and safety devices, in particular safety valves and a breakaway are necessary. This reduces the investment costs for the gas station.

Further features and advantages of the invention will be described below in the description of an embodiment with reference to FIG 1 be explained. It shows:

1 : Schematic representation of the filling of a gas cylinder at a gas station

1 schematically shows a gas pump 10 at a filling station for gaseous fuels and a compressed gas tank 14 , To the petrol pump 10 is a hose 11 attached to the end of a fuel nozzle 12 connected. The fuel nozzle 12 and the gas station is designed to fuel vehicles with gaseous hydrogen. At the compressed gas tank 14 is an adapter 13 attached, which is a pressure-dependent closing valve 15 includes.

For filling the compressed gas tank 14 first becomes the adapter 13 attached to the compressed gas tank. Then we this over the fuel nozzle 12 connected to the gas station and the main valve of the gas cylinder 14 open. At the filling station, which is designed only to refuel storage tanks in vehicles at 350 or 700 bar, filling will now be started. Is the maximum filling pressure in the pressurized gas container 14 reached, closes the pressure-dependent closing valve 15 the gas supply to the compressed gas tank. Subsequently, the refueling process is terminated at the gas station. The main valve of the compressed gas cylinder can be closed. The fuel nozzle 12 and the adapter 13 can be separated from each other. The adapter can also be removed again.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2481969 [0002]
• CN 103574283 [0002]

Claims (10)

A method for filling a gas cylinder at a refueling system, characterized in that an adapter, which comprises a pressure-dependent closing valve is mounted on the compressed gas tank that the adapter is connected to the refueling system, that the gas supply is started and that the pressure-dependent closing valve upon reaching a predetermined pressure interrupts the gas supply. A method according to claim 1, characterized in that is used as the gas, hydrogen or natural gas. A method according to claim 1 or 2, characterized in that the predetermined pressure corresponds to the maximum filling pressure of the compressed gas container and in particular 200, 300 or 700 bar. Method according to one of claims 1 to 3, characterized in that the refueling system is set with a maximum design pressure of 350 and / or 700 bar. Method according to one of claims 1 to 4, characterized in that the refueling system is a gas station for refueling vehicles with gas. Method according to one of claims 1 to 5, characterized in that after the pressurized gas container is connected via the adapter to the refueling system and the leak tightness of the system is checked by a pressure surge, only then the gas supply is started. Method according to one of claims 1 to 6, characterized in that the compressed gas container consists of a composite of metal and plastic and the pressure ramp is selected during filling so that a maximum temperature of -50 ° C to 65 ° C is formed in the interior. Device for filling a compressed gas tank at a refueling system, characterized in that an adapter is connected on the one hand to the compressed gas tank and on the other hand with the refueling system and includes a pressure-dependent closing valve as a safety valve. Apparatus according to claim 8, characterized in that the pressure-dependent closing valve is designed so that it closes upon reaching a predetermined pressure, in particular at 200, 300 or 700 bar. Apparatus according to claim 8 or 9, characterized in that the adapter comprises a data interface.

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