WO2009146846A1

WO2009146846A1 - Pressure-resistant tank for cryogenically stored fuel

Info

Publication number: WO2009146846A1
Application number: PCT/EP2009/003840
Authority: WO
Inventors: Michael Bauer; Johannes Koppi; Michael Zenner
Original assignee: Bayerische Motoren Werke Aktiengesellschaft
Priority date: 2008-06-05
Filing date: 2009-05-29
Publication date: 2009-12-10
Also published as: US20110121004A1; DE102008026824A1

Abstract

According to the invention, a heat-insulated tank for use as a store for operating means of a drive unit of a motor vehicle, in particular a heat-insulated cryotank for condensed gases, comprises at least an inner tank for receiving a condensed gas, said inner tank being held in a heat-insulated manner in at least one outer tank which can be closed with a cover. The invention is characterized in that at least one valve and/or a sensor and/or a line connecting branch, together with associated lines, is accommodated, connected fixedly to the cover, in the insulation space, in the region of the cover between the inner tank and outer tank.

Description

Pressure-resistant container for cryogenically stored fuel

The invention relates to a pressure-resistant container, in particular a cryotank, in particular for storing condensed gas for supplying an internal combustion engine driving a motor vehicle, according to the preamble of the first claim. For the technical environment reference is made to DE 195 46 618 A1.

In the future extremely interesting fuels for driving motor vehicles, such as hydrogen or natural gas or the like. Can be stored relatively cheaply practically only liquefied and thus greatly cooled. In this cryogenic fuel storage, the cryogenic, liquid hydrogen supply in the vehicle is stored in the boiling state in the thermally very well isolated, pressure-tight container. The energy density of the boiling hydrogen is by storage at a temperature slightly above the boiling point at ambient pressure, about 20 K, maximum. In the storage tanks technically converted today, the hydrogen is typically present at temperatures of about 21 K to about 27 K and the corresponding boiling pressures of about 2 bar (abs.) To about 5 bar (abs.). In the lower part of the reservoir, the boiling hydrogen is present as a more dense liquid phase (LH2) and above it as a gaseous phase (GH2).

Such reservoirs are usually designed double-walled, wherein in the inner container, the liquid gas is stored and the space between the inner and the outer container is evacuated and used for isolation. About removal and filling lines and electrical lines and substantially outside the cryotank arranged switching elements, the control of the Kryokraftstoffströme and the auxiliary equipment takes place. To reduce the heat conduction into the inner container, the removal and filling lines are surrounded by a vacuum jacket and in designed for heat removal of suitable length before they enter the inner container.

In DE-OS 195 46 618 a storage container for cryogenic media is proposed, in which between the two containers an evacuated insulating space enclosing the interior is provided, are guided by arranged in the inner container lines to outside the outer container arranged switching elements. These are located in a vacuum container, which is permanently connected to the outer container. For this purpose, a container wall of the outer container limits the vacuum container and the lines are guided through this container wall.

Such a vacuum container outside the outer container requires additional space and its connection to the outer container is extra to produce, which causes high production costs. In addition, it is desirable to produce a low weight cryogenic tank of modular design and high degree of prefabrication.

A solution to this problem and to provide a storage container as desired is the object of the present invention.

The object is achieved with the features of claim 1. Advantageous embodiments and further developments are content of the dependent claims.

According to the invention there is a heat-insulated container for use as a memory for a resource of a drive assembly of a motor vehicle, in particular a thermally insulated cryogenic tank for condensed gases, at least one inner container for receiving a condensed gas, which is thermally insulated in at least one outer container is held with a lid is closable. The invention is characterized that in the isolation space, in the region of the cover between the inner container and the outer container, fixedly connected to the lid, at least one valve and / or a sensor and / or a line connection piece is accommodated with associated lines.

Further preferred embodiments of the invention are characterized in that the outer container, viewed in the direction of its container longitudinal axis, at least consists of a peripheral wall element with a bottom whose open, opposite end, can be closed by the lid. For this purpose, the cryotank can also be designed as a molded tank whose outer shell is shaped essentially according to the space available in the motor vehicle.

Alternatively, the outer container, also as a molded tank, also consist of at least one hollow cylindrical peripheral wall element with a removable bottom and a removable lid. In this case, at least one further valve and / or a further sensor and / or a further line connecting piece with associated lines can also be accommodated in the insulation space, in the region of the bottom between inner container and outer container.

Further advantageous embodiments of the invention are characterized in that the lines are led out through the lid and / or the bottom of the outer container. In addition, at least one line may be integrated in at least part of its length in the lid and / or in the floor. As well as a valve and / or a sensor may be at least partially integrated in the lid and / or in the ground. In the case of a valve, it is favorable if this is integrated in the cover and / or in the floor in such a way that a valve seat is formed there. The lid is preferably made Metal and is tightly connected to the peripheral wall element, in particular screwed.

By this construction of the cryotank simple serial production of the tank can be realized. The lid and / or the floor can be pre-equipped completely with all fittings, ie connecting pieces, valves, sensors and piping, suspensions, etc. and then placed on the outer container equipped with the inner container, connected and connected. All auxiliary systems are integrated in the lid and / or the bottom of the tank wall of the outer container. The valve seats form part of the tank wall of the outer container and additionally stiffen this area. Stiffeners between the individual components can also be easily performed. The connecting lines can also be in the isolation room. In addition, the valves and sensors in the lid and / or in the bottom are easily accessible and interchangeable. Within the lid and / or bottom, the valves can also be connected or networked through bores, so that a valve block is formed analogous to hydraulic systems. The inner tank storage may also be part of the lid and / or floor, for example via a receiving part.

In the following the invention will be further explained with reference to a preferred embodiment. The attached FIGS. 1 and 2 each show, in a partial spatial view, an outer container according to the invention of a cryotank for storing a cryogenic medium. Figure 1 with, Figure 2 without cover cover. Figure 3 shows the outer container in a partial section without cover cover. In all figures, the same elements are designated by the same reference numerals and essential to the invention may be all the features described in more detail. In a motor vehicle, not shown, a cryotank with a non-illustrated inner container, according to one of Figures 1 to 3, installed for storing liquid hydrogen LH2. This serves as a fuel for the supply of a motor vehicle driving, not shown, internal combustion engine. The cryotank is an elongated container, consisting of the pressure-resistant inner container, mounted on a not shown storage device in an outer container 1, with intervening insulating layer, a vacuum. With such, due to its peripheral configuration according to the installation space conditions in the motor vehicle so-called molded tank, it is possible to minimize the gaps between the cryotank and the adjacent vehicle parts and thus to maximize the volume of the inner container of the cryogenic tank by better utilization of the vehicle body space.

The thus designed outer container 1, for receiving the filled with condensed gas inner container, which is thermally insulated in the outer container is made of a hollow cylindrical peripheral wall member 2 with a bottom not shown and an open, the ground opposite end, in the direction of the container longitudinal axis thereon 3. The outer container peripheral wall element 2 and the cover 3 can be made of metallic and / or non-metallic material and are tightly connected to each other, in particular by welding or screwing. Likewise, these may consist of a dense inner layer, in particular of metal, at least externally surrounded by at least one reinforcing layer of fiber material and be surrounded in the joined state at least at the joints, at least outside, of at least one further reinforcing layer of fiber material. In the insulation space 4, in the region of the lid 3 between the inner container and outer container 1, fixedly connected to the lid 3, two cold valves 21 for refueling and venting, with associated lines 22, which lead to the inner container housed. More there housed lines 6 are led out of the inner container via the lid 3 from the outer container 1. For this purpose, 3 pipe connection pieces, valves and sensors are mounted in the lid. Five valves, a shut-off valve 5 of the consumer supply line, two safety valves 9, 10, a partial flow control valve 11 and a boil-off pressure control valve 12 are each integrated between honeycomb reinforcing ribs 7 in the lid 3, that the respective valve seats in the wall of the outer container 1 of the Lids 3 are formed. The associated valve body are then screwed in each case in a honeycomb 8 of reinforcing ribs 7 of the lid 3. As well as a tank attachment 13 for the outer container 1, two pressure sensors 14, 15 and a temperature sensor 16. In each case a line connection piece for the filling 17, for two safety lines 18, 19, for the consumer supply line 20 and for the boil-off pressure control line 21, is also screwed in each case in a honeycomb 8 of reinforcing ribs 7 of the lid 3. An attachable lid cover 23 closes the housed in the lid 3, described fittings.

By this construction, a serial production of the cryotank can be realized. The lid 3 can be pre-equipped with line connection pipe, valves and sensors and assembled. Thereafter, the lid 3 is inserted into the outer container 1 and sealed together. The result is a molded tank with low weight and high degree of prefabrication, which can be produced inexpensively in reliable quality.

Claims

claims

1. A heat-insulated container for use as a memory for a resource of a drive assembly of a motor vehicle, in particular heat-insulated cryogenic tank for condensed gases, comprising at least one inner container for receiving a condensed gas, which is thermally insulated in at least one outer container (1) is held with a lid (3) is closable, characterized in that in the isolation space (4), in the region of the lid (3) between inner container and outer container (1), fixedly connected to the lid (3), at least one valve (5, 9, 10, 11, 12) and / or a sensor (14, 15, 16) and / or a line connection piece (17, 18, 19, 20, 21) with associated lines (6, 22) is housed.

2. A heat-insulated container according to claim 1, characterized in that the outer container (1), seen in the direction of its container longitudinal axis, at least of a peripheral wall element (2) having a bottom whose open, opposite end, by the lid (3) is closable ,

3. Heat-insulated container according to claim 1 or 2, characterized in that this is designed as a molded tank.

4. Heat-insulated container according to one of claims 1 to 3, characterized in that the outer container (1) consists of at least one hollow cylindrical peripheral wall element (2) with a removable bottom and a removable cover (3).

5. A heat-insulated container according to claim 4, characterized in that in the insulation space (4), in the region of the bottom between inner container and outer container (1), firmly connected to the ground, min- at least one further valve and / or a further sensor and / or a further line connecting piece is accommodated with associated lines.

6. Heat-insulated container according to one of claims 1 to 5, characterized in that the lines (6, 22) through the lid (3) and / or the bottom of the outer container (1) are led out.

7. Heat-insulated container according to one of claims 1 to 6, characterized in that at least one line (6, 22) is integrated at least over part of its length in the lid (3) and / or in the bottom.

8. A heat-insulated container according to one of claims 1 to 7, characterized in that at least one valve (5, 9, 10, 11, 12) and / or a sensor (14, 15, 16) at least partially in the lid (3) and / or integrated in the ground.

9. A heat-insulated container according to claim 8, characterized in that at least one valve (5, 9, 10, 11, 12) is integrated in the lid (3) and / or in the bottom such that a valve seat in the lid (3) and / or bottom is formed.

10. A heat-insulated container according to one of claims 1 to 9, characterized in that the lid (3) consists of metal and tightly connected to the peripheral wall element (2), in particular screwed, is.