RU2203483C1 - Device analyzing process of combustion of materials in weightlessness - Google Patents

Abstract

FIELD: study of burning processes in weightlessness. SUBSTANCE: task of this technical approach lies in provision of fire safety under conditions of zero gravity during space flight and in examination of rate of burning of organic and synthetic materials used on space stations. Device analyzing process of combustion of materials in weightlessness has combustion chamber, igniter, specimens arranged in parallel to longitudinal axis of combustion chamber, mechanism replacing specimens with two drums, specimen holders, turning handles, flow former and heat exchanger. Mechanism replacing specimens is inserted with input and output mutually perpendicular shafts. Input shaft is positioned perpendicular to side wall of combustion chamber and output shaft is placed in parallel to longitudinal axis of combustion chamber. Turning handle is located on one end of input shaft on outside of side wall of combustion chamber. The other end of shaft carries lever installed inside combustion chamber perpendicular to shaft and connected to slider mounted for movement along lateral axis of combustion chamber. Ratchet-and-pawl gear is fitted with lock of position and angle of turn of specimens arranged inside combustion chamber in parallel to its longitudinal axis. Flow former is placed along longitudinal axis of combustion chamber. EFFECT: device ensures laminarity of motion of flow in zone of burning of examined specimen and mechanical installation of new specimen in zone of burning. 4 dwg

Description

 The invention relates to the fire fighting technique of aircraft and can be used in space technology, in particular for conducting research on the maximum burning rate of the gas flow in order to build fire safety systems in confined spaces.

 The increase in space research, the duration of flights necessitates the development of reliable, economical and environmentally friendly ways to ensure fire safety in confined spaces of aircraft. Therefore, it is necessary to study the combustion process of materials and determine such indicators of their fire safety in the absence of gravity, such as the speed of flame propagation through materials, the limiting parameters of their combustion, as well as the limiting gas flow rates at which combustion is possible. The development of devices for studying the behavior of fire in the absence of gravity is engaged in a research center. Lewis (USA) and space rocket corporation. An analogue is the installation created in the USA for conducting a detailed study on the Space Shuttle spacecraft of the factors of combustion and flame propagation in low gravity conditions with low-velocity convective flows, developed by W.U. Yangblood (NASA CR-182114 WW. Yougblood <Spacecraft fire - safety experiments for space Station. Texnology development mission> Wyle Laboratorories, Huntcsvile, Alabama, 1988, pp. 33-36. The device consists of a combustion chamber made in the form of a replaceable test section on combustion and flame propagation, a flow forming unit in the combustion chamber, made in the form of a fan pumping a gas mixture, a filter of mechanical impurities, a heat exchanger made in the form of heat-removing spirals, a control system for the gas medium supplied to the chamber, including a preliminary gas subsystem source and storage and a subsystem of gas composition, a subsystem for measuring flow velocity and control, a subsystem for introducing / returning a combustible sample.This device was designed to burn only one sample and only thin sheet materials (paper, plastic, etc.), because in this design, samples were introduced into the combustion chamber through a narrow slit from the side of the combustion tunnel. The disadvantages of this design include large dimensions due to the fact that the cartridge with the test samples is installed outside the combustion chamber and after each experiment, the test sample must be replaced by removing it from the combustion chamber through a narrow slot and introducing a new one.

 Closest to the proposed technical solution, selected as a prototype, is a device for studying the process of burning materials in zero gravity, patent RU 2038588. with priority from 08.19.92. The device comprises a combustion chamber, a flow former in the form of a fan forming a gas mixture, a filter for mechanical impurities and for adsorption of emission products during combustion of samples, a heat exchanger, igniter, a sample mounted on a holder, a sample replacement mechanism made in the form of two drums with sample holders located parallel to the longitudinal axis of the combustion chamber, as well as turn knobs and a stopper for moving samples placed on the rear wall of the combustion chamber.

 Storage of burnt samples inside the combustion chamber eliminates the pollution of the atmosphere of the living compartment of the manned spacecraft for a long time. The rotation of the samples is carried out using handles located outside on the rear wall of the combustion chamber, and a stopper for moving the samples, which holds the samples on the drums in the ignition zone. Combustion products are discharged using a flow forming device through a heat exchanger integrated in the side wall of the combustion chamber. Samples on the drums are fixed in such a way that only one sample is ignited.

When the combustion study of the material fixed on the first drum is carried out, the second drum is fixed in such a position so as not to interfere with the change of samples of the first drum. The angle of installation of the samples on the drums is determined by the safety of operation during ignition of the samples, i.e. the size from the combustible sample to nearby samples should be more than half the size of the combustion zone of the test sample, calculated by the formula:
δ = 4.64x • ν / v _n ,
where x is the length of the sample from the leading edge of the sample along the gas stream, cm;
ν is the kinematic viscosity coefficient, cm ² / s;
v _n - gas flow rate, cm / s.

In real space flight, the speed of the ventilation stream flowing around its samples is from 0.5 to 20 cm / s, ν = 0.2 cm ² / s:
v _n depends on the concentration of oxygen;
v _n = 7.5-0.16 C _O2 .

 The disadvantages of this design include the organization of the gas flow through the side wall, at a small distance from the combustion zone of the sample, which causes a violation of the laminar flow and significantly affects the purity of the experiment.

 The objective of the proposed technical solution is to ensure fire safety in zero gravity space flight in the study of the burning rate of organic and synthetic materials used at space stations.

 The technical result achieved by using the invention is to improve performance with a slight increase in size, allowing to study not only thin-walled samples, but also samples with increased mass and having a large cross-sectional area, as well as preventing the influence of turbulent gas flows on the sample under study in zero gravity due to the laminar flow of gas flows in the combustion zone of the sample.

 The specified technical result is achieved by the fact that in the device for studying the processes of burning materials in zero gravity, containing a combustion chamber, an ignitor, samples located parallel to the longitudinal axis of the combustion chamber, a mechanism for replacing samples with two drums, sample holders and turn handles, a flow former, and the heat exchanger, in contrast to the known in the sample replacement mechanism, the input and output mutually perpendicular shafts are introduced, while the input shaft is perpendicular to the side wall of the chambers s of combustion, and the output shaft is parallel to the longitudinal axis of the combustion chamber, the rotary handle mounted on one end of the input shaft on the outside of the side wall of the combustion chamber, on the other end of the shaft inside the combustion chamber, a lever perpendicular to it is connected to a slider mounted with the possibility of displacements along the transverse axis of the combustion chamber and connected by means of a lever with a ratchet, equipped with a fixator for the position and angle of rotation of the samples and rigidly fixed to the output shaft located inside the chamber combustion parallel to its longitudinal axis, at the end of which is located a drum with samples, and a flow former placed along the longitudinal axis of the combustion chamber.

 The device provides during research the laminarity of the flow in the combustion zone of the test sample and the mechanical installation and fixation of a new sample in the combustion zone.

 The angle of rotation of the handle corresponds to the angle of rotation of the drum, necessary to move the sample into the ignition zone, which is fixed with the help of the position and angle of rotation of the samples located inside the combustion chamber. The drum with samples is located at such a distance from the rotation mechanism of the drums that the gas flow turbulence arising from the influence of the rotation mechanism of the drums and the heat exchanger is minimal and is equal to or greater than half the length of the sample.

 In FIG. 1 shows a device for studying the combustion processes of materials in zero gravity; in FIG. 2 is a kinematic diagram of a drum drive of a sample replacement mechanism; in FIG. 3 - zone of the burning sample; figure 4 is a transverse section of the combustion chamber.

 A device for studying the combustion process of materials contains a combustion chamber 1 having an inlet 2 and an outlet 3 openings, viewing windows 4 and 5, an igniter 6, drums with holders 7, samples 8 located parallel to the longitudinal axis of the combustion chamber, a heat exchanger 9 located perpendicular to the heat flux , a replacement mechanism for samples 10, consisting of a handle 11, an input shaft 12; the lever of the input shaft 13, the slider 14, moving along the transverse axis of the combustion chamber 15, the lever 16, turning the ratchet 17, rigidly connected to the output shaft 18, parallel to the longitudinal axis of the combustion chamber, while the ratchet is equipped with a lock position and angle of rotation of the samples 19, a spring the return of the slider and the handle to the initial position 20. Figure 3 shows the direction of the generated stream 21, acting on the sample. Figure 4 also shows a dial for controlling the number of the installed sample 22, placed on the wall of the combustion chamber, a grid 23 placed behind the burning sample, and the flow former 24.

 A device for studying the combustion process of materials under zero gravity works as follows. The formed stream 21 enters the combustion chamber through the inlet 2, blows the burning sample 8 and exits through the grid 23, the sample replacement mechanism 10, the heat exchanger 9 and the outlet 3. The burning sample forms a combustion zone around itself, which has the largest size A. To ensure safety during operation, the distance B between the test and neighboring samples should exceed the size A of the combustion zone. Drums 7 with samples 8 should be brought to their original position so that one sample (test) is in the center of the cross section of the combustion chamber. This position of the test sample is achieved by fixing both drums with a retainer of the position and angle of rotation of the samples 19. When a material is burned on a sample 8 mounted on the first drum 7, the second drum 7 with the fixed samples 8 is fixed in its original position so that it is not an obstacle for changing samples on the first drum. The free rotation of the first drum is achieved due to the fact that the opening of one pair of samples is ensured by an angle greater than the opening angle of the other pairs of samples.

 The movement of the sample 8 of the first drum 7 with the fixed position of the second drum 7 is carried out by turning the handle 11, the input shaft 12 by an angle equal to the angle of rotation of the sample on the drum 7. On the input shaft 12 there is a lever for the input shaft 13 connected to the slider 14, which the rotation of the input shaft moves the slider 14 along the transverse axis of the combustion chamber 15. A lever 16 is connected to the slider 14, which turns the ratchet 17, rigidly connected to the output shaft 18, parallel to the longitudinal axis of the combustion chamber and having a latch set and the angle of rotation of the samples 19. To return the slider 14 to its original position and, accordingly, the handle, a return spring 20 is installed, while the ratchet device rotates in only one direction. A limb 22 is installed on the output shaft 18 to control the number of the installed sample 8. A drum 7 is fixedly mounted on the output shaft with fixed samples 8 that rotate by the angle of rotation of the handle 11. The second drum 7 with installed samples 8 is rotated when the first drum is fixed in the condition the maximum angle between a pair of samples on it, when turning the handle 11 of the second drum.

Sources of information
1. NASA CR-182114 WW Yougblood <Spacecraft Fire - Safety Experiments for Space Station. Texnology Development Mission> Wyle Ladoratorories, Huntsvile, Alabama, 1988, pp. 33-36. (Fire safety experiments for spacecraft for a space station. Technological flight). Technical translation 19/90, inv. The original number is 17834.

 2. Patent RU 2038588 dated 06/19/92. A device for studying the process of burning materials in zero gravity. MKI 6 G 01 N 25/52.

 3. Processing the results of the third series of space experiments in the ES "Speed". Technical Reference Inv. 2897. The Research Center. M.V. Keldysh, Moscow.

Claims (1)

 A device for studying the process of burning materials in zero gravity, containing a combustion chamber, an ignitor, samples located parallel to the longitudinal axis of the combustion chamber, a mechanism for replacing samples with two drums, sample holders and turn handles, a flow former, and a heat exchanger, characterized in that in the mechanism replacement of samples introduced input and output mutually perpendicular shafts, while the input shaft is perpendicular to the side wall of the combustion chamber, and the output shaft is parallel to the longitudinal axis of the chambers s of combustion, the rotary knob mounted on one end of the input shaft on the outside of the side wall of the combustion chamber, on the other end of the shaft inside the combustion chamber, a lever is mounted perpendicular to it, connected to a slider mounted to move along the transverse axis of the combustion chamber and connected by a lever with ratchet equipped with a clamp for the position and angle of rotation of the samples and rigidly fixed to the output shaft located inside the combustion chamber parallel to its longitudinal axis, at the end of which laid drum samples and a stream generator arranged along the longitudinal axis of the combustion chamber.

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