DE1101685B - Pressure exchanger with at least two cellular wheels - Google Patents

Description

Pressure exchanger with at least two cellular wheels The invention relates to an arrangement with at least two pressure exchangers, each with a cell wheel or with a pressure exchanger with at least two cellular wheels.

The term »pressure exchanger« is used in the context of the following Description applied to a device in which between a cell array and a channel arrangement there is a relative movement and in which within the individual cells of the cell arrangement expands a certain amount of gas, whereby another amount of gas with which the first-mentioned amount of gas within the relevant Cell is in direct contact, being compressed, and being the two under different pressure gases through the channel arrangement to the cells essentially are continuously supplied or discharged from these.

Rotary pressure exchangers are at least theoretical in terms of their Basics have been known per se for many years. It is also known that a temperature in order to achieve a cooling effect by means of a cooling device must be produced, which is below the temperature of the environment to be cooled. It is also already known to switch pressure exchangers as pressure dividers, as a result of which a facility is created in which one under one. medium pressure gas is supplied and gas is expelled at two different pressures, one of which is below and the other of which is above the mean pressure at which the gas is supplied. . -The invention is based on the knowledge; that a pressure divider also works as a temperature divider is effective. When operating aircraft in the supersonic speed range has namely shown that-ß. the temperature as the aircraft speed increases the outer construction of the aircraft due to the boundary layer friction that occurs increases and that therefore an artificial cooling of the aircraft outer structure is required is. With the device according to the invention it is now not only possible to have an effective To achieve cooling of the outer structure of aircraft, but also to achieve an increase in the engine thrust by the fact that the Gases that leave the device according to the invention have a greater heat content than the gases absorbed by the facility.

For this reason, the use of temperature dividers for cooling aircraft is particularly useful. Although airplanes normally move within cold air, high temperatures To are set in flight, which are calculated using the following formula: where T ('K) is the air temperature, the aircraft speed, the gravitational constant, the mechanical heat equivalent and denotes the specific heat of air at constant pressure.

At supersonic speeds, the set temperature is consequently undesirably high. Cooling one flying at supersonic speed Aircraft through heat transfer into the air temperature T, which per se is normal surrounding air is not possible in this simple way, since all interfaces of the aircraft - i.e. also a heat exchanger fastened to the aircraft for example - against the surroundings assume the high temperature To, which is determined by the given formula as the sum of the temperature of the surrounding air and the temperature rise ceases the movement of the aircraft against the surrounding air. So it exists on any surface of the aircraft that is in contact with the ambient air Supersonic speed a heat gradient, so that without special precautions the Plane would assume the temperature To.

To keep part of the aircraft cooler against the temperature To to be able to, but one could Apply heat pump - and "it is It has been found that pressure exchangers are very special for this purpose Way suit. '"-The invention accordingly includes a pressure exchanger with at least two cellular wheels, which is characterized in that -a cellular wheel via inlet openings Receives gas of medium pressure and gas both via corresponding outlet openings from higher than: also from lower pressure than this mean pressure to another Gives off the cellular wheel, which in turn, expels gas of medium pressure, whereby the the The former cell wheel with lower pressure through channels leaving gas flow is the cold branch of a heat exchanger.

An embodiment of an arrangement according to the invention with two pressure exchangers is described below, for example with reference to the drawing, which shows the schematic development of such an arrangement.

The device according to the invention has two cell wheels 1 and 2 of conventional design, the cells of which are moved by rotating the cell wheels in the directions indicated by the arrows X relative to the inlet and outlet channels. In the case of the cellular wheel 1 , the end plate construction, which is usually arranged on the front side, is missing on one side of the wheel. For this, a gas flow with high flow velocity occurs on this wheel side, the flow direction of which is indicated by the arrows Y. On the other side of the cellular wheel 1, the mouths of a number of channels 3 and 4 are arranged around the circumferential area of this wheel front side at a small distance from the cellular wheel face. The channels 3 open directly into the face of the cellular wheel 2 and are each arranged alternately with channels 4. The channels 4 arranged between the channels 3 as a result form part of the cold branch 5 of a heat exchanger. In practical applications of the invention in connection with aircraft or missiles, this cold branch runs either within the aircraft structure, within the driver's seat or within the walls of the passenger compartment.

The second cellular wheel 2 receives both the gas supplied from the ducts 3 and the gas supplied from the ducts 4 and expels the same with essentially constant pressure in the direction of the arrows Z into the surrounding atmosphere 6 . During operation, ram air is admitted into the cellular wheel 1 in the direction of the arrows Y at the pressure which is set in each case. The cellular wheel 1 acts as a pressure divider and divides the ram air received, which originally has a certain mean pressure, into an air stream of higher pressure and an air stream of lower pressure. These two air streams flow inside the channels 3 on the one hand and inside the channels 4 on the other hand. The air flowing through the low-pressure channels 4 has given up work to the air flowing through the high-pressure channels 3 and is consequently colder than the latter. As a result, the low-pressure channels 4 carry a continuously flowing, heat-reducing medium. This heat-reducing medium can absorb considerable amounts of heat at high flight speeds in the supersonic range. After appropriate heat absorption, this medium is expelled into the outside atmosphere 6 after passing through the cellular wheel 2. The cellular wheel 2 thus acts as a pressure equalizer. Since the gases leaving the cellular wheel 2 consequently have essentially the same pressure, they can be used as an additional propulsion jet for the aircraft or the missile.

Claims (1)

PATENT CLAIM: Pressure exchanger with at least two cellular wheels, characterized in that a cellular wheel (1) receives gas of medium pressure via inlet openings and emits gas of both higher and lower pressure than this average pressure to another cellular wheel (2) via corresponding outlet openings, which in turn expels gas of medium pressure, the gas flow leaving the first-mentioned cell wheel (1) finitely lower pressure through channels (4) being the cold branch (5) of a heat exchanger. - Publications considered: German Patent Nos. 485 386, 902 772, 908778; Swiss Patent No. 301912; French Patent Nos. 935 362, 1065 909; Belgian patent specification no.512204.