DE2657497A1 - HEAT EXCHANGER, IN PARTICULAR REGENERATIVELY COOLED COMBUSTION CHAMBER WITH THROTTLE NOZZLE FOR LIQUID ROCKET ENGINES - Google Patents

Description

Heat exchanger, in particular regeneratively cooled combustion chamber with thrust nozzle for liquid rocket engines

The invention relates to a heat exchanger, in particular a regeneratively cooled combustion chamber with a thrust nozzle for Liquid rocket engines, consisting of a metallic one-piece base body with continuous, for The outside of the base body, openly designed channels for at least one cooling medium, in particular a fuel component, which is galvanized onto the base body by a Outer wall are covered.

In a heat exchanger LO of the type mentioned at the beginning, known from DT-PS 1 751 691, in the form of a regeneratively cooled one Combustion chamber with thrust nozzle for liquid rocket engines, the one-piece base body consists of acidic

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material-free copper or an equivalent material such as silver or molybdenum. To cover the cooling channels, a thin-walled one is placed on the one-piece base body in this case Intermediate layer and a relatively thick-walled pressure jacket galvanized onto the latter for the intermediate layer as well as for the one-piece base body, oxygen-free copper, silver or molybdenum, for the pressure jacket nickel for listing.

The object of the present invention is to find one that is excellently suited for low and medium operating pressures To develop heat exchangers of the type mentioned at the beginning, which turns out to be much lighter with the same external dimensions than the known type described above.

This object is achieved according to the invention in that at least the first of the base body and the outer wall consists of pure aluminum, an aluminum alloy or an aluminum dispersion material.

As it turned out, can be a one-piece Base body according to the invention for the formation of an outer wall functioning as a pressure jacket, including copper or equivalent material such as nickel or equivalent material, and to form a comparatively thin-walled Intermediate layer for the subsequent electroplating of a pressure jacket, including precious metals such as gold, or a Noble metal alloy, such as gold alloy, with a binding strength that exceeds the strength of the base body material are electrodeposited. If this happens, the results are excellent for low and medium operating pressures suitable heat exchangers. These stand out compared to those acknowledged in the statements on the state of the art Embodiment is characterized by an advantage that is particularly evident when it is designed as a combustion chamber with a thrust nozzle for liquid rocket engines comes into play. With said advantage

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If the one-piece base body consists of copper, pure aluminum, an aluminum alloy or an aluminum dispersion material instead of copper, as is known, this brings about a weight reduction in relation to the specific weights from the outset with otherwise the same base body dimensions, i.e. in of the order of around 66 % . In addition to this saving in weight, there is another one, namely as a positive side effect of a measure with which the lower thermal conductivity of the material used according to the invention for the base body compared to copper is taken into account. The mentioned measure is a reduction of the cooling duct height, with the aim of compensating for the impairment of the heat transfer resulting from the aforementioned difference in the thermal conductivity by increasing the coolant flow rate for a given secondary coolant throughput.

In an embodiment of the invention, there is not only the one-piece base body, but also the one electroplated onto it Outer wall made of pure aluminum, an aluminum alloy or an aluminum dispersion material, resulting in a leads to a further decrease in the already low structural weight, as shown.

Embodiments of the invention are explained in more detail below with reference to schematic drawings. There are:

1 shows a heat exchanger in the form of a regeneratively cooled combustion chamber with a thrust nozzle for a Liquid rocket engine, namely in longitudinal section,

Fig. 2 is a section along line II-II in Fig. 1 and

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FIG. 3 shows a heat exchanger modified compared to FIG. 1, specifically in the same section as in FIG. 2.

Fig. 1 and 2 give a regeneratively cooled combustion chamber 1 with thrust nozzle 2 for a liquid rocket engine 'from Low pressure type again. Combustion chamber 1 with exhaust nozzle 2 consists essentially of a one-piece base body 3 made of pure or alloyed, preferably dispersion-hardened Aluminum. Said base body 3 can be prefabricated from a block in a conventional manner by forging (solidified in the structure) and by further machining be completed. From the one-piece base body 3, cooling channels 4 running in the longitudinal direction are worked out, between which webs 5 remain. For cooling duct cover is in the embodiment in question on the base body 3 an only thin-walled intermediate layer 6 and on the latter a thick-walled outer wall 7 functioning as a pressure jacket, for example made of dispersion-hardened copper or made of nickel, electroplated. The type of intermediate layer 6 depends on the specific application.

Is applied due to the chemical aggressiveness of the entering for use coolant particular UERT a corrosion protection of the outer wall 7 of electroplated copper or nickel, is recommended as a material for the intermediate layer, for example aluminum, gold or a gold alloy · Comes as a coolant liquid hydrogen is used, it is mounted in the case of an outer wall 7 of the winding, the latter to protect against embrittlement by use of copper for the intermediate layer. 6

In the exemplary embodiment according to FIG. 3, the outer wall 7 is electroplated directly onto the base body 3 , omitting the intermediate layer G. It consists, for example, of copper or, like the base body 3, of pure aluminum, an aluminum alloy or an aluminum dispersion material.

Patent claims:

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Claims (1)

PATENT CLAIMS 1. \ Heat exchanger, in particular regeneratively cooled combustion chamber with thrust nozzle for liquid rocket engines, consisting of a metallic one-piece base body with continuous channels open to the base body for at least one cooling medium, in particular a propellant component, which are covered by an outer wall galvanized onto the base body , characterized in that at least the first (3) of the base body (3) and outer wall (7) consists of pure aluminum, an aluminum alloy or an aluminum dispersion material. Heat exchanger according to claim 2, characterized in that g e k e η η that the one-piece base body (3) made of pure aluminum, an aluminum alloy or one Aluminum dispersion material and the outer wall (7) made of electrodeposited, preferably dispersion hardened Copper or equivalent material. Heat exchanger according to claim 1, characterized draws that the one-piece base body (3) made of pure aluminum, an aluminum alloy or one Aluroinium-Disperslonsmatorial and the outer wall (7) electrodeposited nickel or equivalent Material. -G- 809825/0342 Heat exchanger according to claim 2 or 3, characterized in that between the base body (3) Made of pure aluminum, an aluminum alloy or an aluminum dispersion material and the outer wall (7) made of electrodeposited copper, nickel or the like. a comparatively thin-walled intermediate layer (6) mechanically adhering to these two components (3, 7) is arranged from electrodeposited material. Heat exchanger according to Claim 1, characterized in that both the one-piece base body (3) and the galvanized outer wall (7) made of pure aluminum, an aluminum alloy or a Consist of aluminum dispersion material. 809825/0342