DE4102617A1 - Pressure container for gases or fluids - has devices for effecting gas or fluid volume alterations - Google Patents

Abstract

Two pressure containers (1, 2) for gas or fluid are directly connected to one another under pressure by a device (5). This device has to be in a position to make available for use the power resulting from the volume alteration of the pressurised gases or fluids (8). It can be e.g. a double-acting pressure piston cylinder (5) or a pneumatically operated motor, or a pump (5) for driving e.g. machines or generators. Volume alteration is caused by temp. alteration of the pressurised gases or fluids. Gases or fluids in the one container are heated whilst those in the other container are cooled, and then vice vera. Temp. alteration can be produced by natural and/or artifical heat (3) and cold sources (4), e.g. by geothermic heat, cold air, or by central heating hot water and cold ground water. USE - To produce volume alterations in fluids or gases.

Description

description

Pressure vessel for gases or liquids with Devices to change the volume of the gases or Capture liquids.

State of the art

Pressure vessels for gases or liquids are in any State-of-the-art molds at any time construct or purchase. Devices, such as B. double-acting pressure cylinder or pneumatically or hydraulically driven motors or Pumps are used to measure volume changes of gases or liquids to record and make usable according to the status to manufacture or acquire the technology without problems. To pressurize gases or liquids, you can use common pumps. There are also no technical problems with pressure vessels, or its contents alternately heat or cold sources to suspend.

problem

The invention specified in claim 1 is the problem underlying temperature differences natural or artificial origin of any substance (e.g. Water and air) economically usable and this is done with the greatest possible protection of the environment.  

invention

This problem is solved with the measure of claim 1 solved. Gases or liquids under pressure can pass through their volume changes generate more force than gases or Liquids in containers of the same size without excess pressure, if there is an equal change in temperature of the gases he follows. By placing two containers directly over one Device for detecting volume change from below Connects gases or liquids under pressure, one gives the gases the possibility, depending on the Pressure ratios in the containers from one container too the devices, or from the devices in the to pour other container. By consciously induced and opposite temperature change a pressure drop is achieved in the pressure vessels about devices such. B. double acting Pressure piston cylinder or pneumatic or hydraulic driven motors or pumps for driving z. B. Lets use machines or generators. So you can relatively low natural temperature differences and / or artificial origin of any Substances (e.g. geothermal heat or cold groundwater) be used.  

The choice of gas or liquid plays a role here an essential role (differences in boiling temperatures). By changing the pressure in the tanks The boiling points of liquids can be controlled via the valves (e.g. water or ether) change. This creates the possibility in a certain range existing heat and / or cold sources optimal adapt.

Advantageous effect of the invention

With the invention in the specified application achieved that you are relatively low Temperature differences of fabrics artificial or of natural origin. this happens under the sign of great environmental compatibility. Further aggregates are used that are proportional subject to low wear, common and relative are inexpensive.

Development of the invention

Advantageous embodiments of the invention are in the Claims 2-4 specified. The further training after 2 and 3 create the option of hydraulically powered To create devices for driving machines. The Further training according to claim 4 enables a possible extensive use of the heat or Cold sources.

Presentation of the invention

An embodiment is explained with reference to FIGS. 1 to 5. The items listed in the figures are not to scale. The Figs. 1 to 3 illustrate that the device (5) for detecting change in volume of gases (8) or liquids (8) directly (as in Fig. 1) or indirectly (as in Fig. 2 and 3) with the help of a hydraulic fluid. The configuration of the invention, such as heat ( 3 ), cold source ( 4 ), shape of the pressure vessel ( 1 and 2 ) and the insulation ( 14 ) are more schematized in FIGS. 1 to 3, as in FIGS. 4 and 5.

Figs. 4 and 5 show a sectional drawing of the two phases in which the pressurized contents (8; gases or liquids) in the pressure vessels (1 and 2) its end point at the mutual warming or cooling have reached. The pressure vessels ( 1 and 2 ) are in a room ( 13 ), the air of which serves as a cold source ( 4 ) (temperature of the air must be lower than the boiling point of the liquid). The heat sources ( 3 ) are located below the pressure vessels ( 1 and 2 ) and provided with insulation ( 14 ) to the air in the room. The pressure vessels ( 1 and 2 ) are shaped in the lower part so that the liquid ( 8 ) collects therein and through the heat sources ( 3 ) a targeted heating of the liquid ( 8 ) can take place to above its boiling point.

Fig. 4 shows the end point of the first phase. The content ( 8 ) in the pressure vessel ( 2 ) has cooled to the extent that it has adapted to the room temperature and the content ( 8 ) in the pressure vessel ( 1 ) is warmed up so far that the content ( 8 ) has largely changed into its gaseous state of matter. Fig. 5 shows the end point of the second phase. The content ( 8 ) in the pressure vessel ( 1 ) has cooled to the extent that it has adapted to the room temperature and the content in the pressure vessel ( 2 ) is heated to such an extent that the content ( 8 ) has largely changed to its gaseous state. FIGS. 4 and 5 it can be seen that the pressure piston cylinder (5) is located at the end point of the phase 1 in the extended state and in the endpoint of Phase 2 in the retracted state. Instead of the pressure piston cylinder ( 5 ), of course, another hydraulically operated device ( 5 ) (such as a hydraulic pump or motor) for driving z. B. machines or generators. Furthermore, by giving off heat to a room, it can be warmed up as a positive side effect.

This embodiment shows that the invention can be installed in almost every household. However, this presupposes that central heating is available as heat and that a liquid is used which has a boiling temperature which is below the temperature at which the hot water central heating works. In this case, the warm water can act as a heat source ( 3 ) - as shown in FIGS. 4 and 5. The valves ( 10 ) can also be used to change the pressure in the containers ( 1 and 2 ) in order to increase or decrease the boiling point of the liquid ( 8 ) by adding or removing hydraulic fluid ( 12 ). In order to use the content (8) dosed accurately in the pressure vessels (1 and 2), are attached to the pressure containers (1 and 2) closable openings.

Claims (4)

1. Pressure vessel for gases, or for liquids with devices coupled thereto to detect volume changes of gases or liquids, characterized in that two pressure vessels ( 1 and 2 ) for gases ( 8 ) or liquids ( 8 ) under pressure are directly connected to one another via a device ( 5 ). This device ( 5 ) must be able to use the force resulting from the change in volume of the pressurized gases ( 8 ) or liquids ( 8 ), including changes in the state of the gases ( 8 ) or liquids ( 8 ) are. Such a device ( 5 ) can, for. B. a double-acting pressure cylinder ( 5 ) or a pneumatically driven motor ( 5 ) or a pump ( 5 ) to drive z. B. machines or generators. The change in volume is brought about by changing the temperature of the pressurized gases ( 8 ) or liquids ( 8 ). The temperature change should be induced as evenly and as oppositely as possible in the individual pressure vessels ( 1 and 2 ), so that the gases ( 8 ) or liquids ( 8 ) are heated in one vessel ( 1 ) while they are in the other vessel ( 2 ) are cooled and then vice versa. The temperature change can be caused by natural and / or artificial sources of heat ( 3 ) and cold ( 4 ) inside or outside of the pressure vessels ( 1 and 2 ) (e.g. by geothermal heat or cold air or e.g. by hot water from a central heating system and cold ground water). The size or design of the heat source or cold source is not tied to a specific shape. Solutions are also possible in which the heat or cold sources can be removed from the pressure vessels or brought to the pressure vessels as required. In addition, the pressure vessels can be provided with valves ( 10 ) which make it possible to change the internal pressure in the vessels. A change in the boiling temperature of liquids ( 8 ) in the pressure vessels ( 1 and 2 ) can thereby be achieved. The pressure vessel ( 1 and 2 ) can have any shape and thus z. B. adapt to the requirements arising from the installation of heat ( 3 ) or cold sources ( 4 ). Furthermore, the pressure vessels ( 1 and 2 ) are provided with closable openings ( 9 ) in order to change the contents ( 8 ) of the pressure vessels ( 1 and 2 ) as required. 2. Pressure vessel according to claim 1, characterized in that in the pressure vessels ( 1 and 2 ) in each case a flexible bladder ( 11 ) suitable for receiving hydraulic fluids ( 12 ) is accommodated, which the force resulting from the volume change of the pressurized gases (8) or liquids (8) (a hydraulically operated pressure piston cylinder (5), motor (5) or pump (5) such as. for example) transmits, via its contents (12) directly to a device (5) for driving from Z. B. machines or generators. 3. Pressure vessel according to claim 1, characterized in that the two pressure vessels ( 1 and 2 ) have a cylindrical shape and the pressure vessels ( 1 and 2 ) are each divided into two chambers by a seal ( 7 ) which is freely movable in the longitudinal axis. One chamber is used to hold gas ( 8 ) or liquids ( 8 ) under pressure and the other chamber is used to hold hydraulic fluid ( 12 ). This, in turn, operates the device ( 5 ) when the volume of the pressurized gases ( 8 ) or liquids ( 8 ) changes. B. to drive machines or generators. 4. Pressure vessel according to claims 1-3, characterized in that the containers ( 1 and 2 ) or the device ( 5 ) are completely or partially insulated and the insulation ( 14 ) can be removed or attached as required to thereby achieve a targeted To allow the emission of cold or heat from the pressurized gases ( 8 ) or liquids ( 8 ) to the environment.