DE701919C - Power machine system operated with a gaseous working medium - Google Patents

Description

Power plant operated with a gaseous working medium The invention relates to one operated with a gaseous working medium Power machine system in which compressed work medium on the one hand and heating gases on the other hand, alternating between several heat accumulators, then this Heated, tensioned work equipment relaxed while performing work and then in a combustion chamber arrangement for the production of combustion heating gases mixed with fuel according to the patent 695 838.

The present invention is primarily that a part of the relaxed working medium as heating gas directly through special heat storage io 'for heat exchange with part of that to be supplied to the expansion machine compressed working medium is performed and that the heated to different levels compressed quantities of work equipment in a controllable ratio to each other .before entry be mixed into the relaxation machine.

Fig. 6 of the drawing gives the scheme of a corresponding engine system again, which differs from the scheme according to Fig. z of the main patent only by the characterizing Feature of the present invention differs. That relaxed in the prime mover T. Working medium occurs at a temperature of z. B. 65o ° in the line 9q., From the it partly through line 98 into one or two of the three memories on the left the storage system iö flows. Another part goes to the combustion chamber B, where he with that supplied by the fan 97, heated in the surface advance 96 flammable gases meet. This surface preheating96 is carried out by the remaining Heated part of the relaxed work equipment. Those formed in the combustion chamber B. z. B. ioo ° C hot combustion heating gases pass through line 99 in an or two of the three storage tanks on the right-hand side of the storage system io and thereby heat this memory. All relaxed work equipment originating from line 94, including that cooled in the forward 96 and that formed in the Brentikatnier B and The combustion nose that has cooled down in the heat storage systems io and io 'collects in the line. 83 and after further cooling it reaches the surface heat exchanger 84 and 9i outdoors.

The air compressed in the compressor V flows through the with the cooling water of the compressor h charged saturator S, in which it is saturated with water vapor. This working medium formed in this way then reaches the line 92, from which it is partly in one or two of the low-temperature heat storage tanks in the group on the left from three heat accumulators in the storage system and partly into one or two of the high-temperature heat accumulators the right-hand group of three heat accumulators of the storage system io. The part of the work equipment heated to almost 65o ° and the part heated to almost 100 ° Some of the working fluid get into the line 93, mix here and flow with a medium temperature to the engine T to be relaxed.

The level of this mean mixing temperature can be regulated by this, that the ratio of the quantities of relaxed work equipment to which the left Heated storage group to which the combustion chamber B is supplied and used as combustion heating gases the right storage group heating, as well as the ratio of the through the two storage groups guided tensioned work equipment is regulated. To this Way it is possible by changing the proportion of the mixture. the Temperature of the pressurized working medium flowing through line 93 to engine T to influence, although the temperature conditions of the two storage groups remain unchanged.

Each group of heat storage systems 1o, io 'must consist of at least three Wärtnesstpeicher exist, each of which is alternately heated or cooled will allow both. the gases to be heated and the gases to be heated always one find free flow. The number of memories in each group can, however, also be larger be chosen as three.

A heat storage system for an engine system according to Fig. 6 Fig. i shows in vertical section, Fig. 2 in horizontal section.

The span: e is called, z. B. to 95o ° C heated work equipment of, for example 7 to 8 ata flows through the pipe 2 vertically upwards to the expansion machine, which can be a turbine or a piston engine. In it the work equipment is up relaxed almost to atmospheric tension, with its temperature at 65o ° C sinks. The relaxed working fluid flows through with this voltage and temperature pipe 3 down to room .4, where the stream divides into a central one Part that rinses and heats a surface heat exchanger 5 and an outer one Part that is passed through the annular space 6 downwards.

From the annular space 6, the relaxed working fluid flows through a Number, for example 9, of radial pipe sockets 7 in the controlled by valves 8 Chambers 9 of the heat storage io or iö. The heat accumulators io and io 'differentiate from each other -by the fact that the heat storage io with the connecting line i i are provided for a flammable gas, while with the heat storage io 'this connection line missing or locked. Of the nine, for example, in a wreath around the pipe 3 heat accumulators arranged around io and iö are three heat accumulators iö and six Heat storage io available, the division being expedient so that always alternate two heat accumulators io with one heat accumulator io '. That kind of division is only to be regarded as an example, it comes into question when using furnace gas.

In the case of the heat accumulators i o ', in which, as already mentioned, the If there is no flammable gas supply, the relaxed working medium at around 65o ° C occurs as heating gas in the time in which the active storage mass 12 is to be heated up, from the pipe socket 7 with the valve 8 open into the space 9, from which it passes through the conically widening channel 13 flows upwards, then turns around and in the annular space 14 arrives, from which it enters the annular storage mass 12, which consists of horizontal sheet metal layers, which free narrow gaps between them let through which the heating gas can flow radially from the inside to the outside. Included the heating gas gives off its heat to the sheet metal storage mass and occurs, largely cooled, in the room 15, which with his the upper part is placed around the storage mass 12 in a ring shape. In the space 15 flows the cooled heating gas down into the interior of the piston valve 16, the is drawn in its central position. If it is in its upper position, so the cooled heating gas can through the upper rim -of openings of the valve sleeve 17 flow into space 18 and from here into the exhaust pipe ig.

Are the metal sheets which form the storage mass 12 in known Way in the flow direction have interruptions, heated far enough, so the valve 8 closes and the slide 16 moves into its lower position, whereby it releases the lower ring of openings in the slide bushing 17. Through this can be tensioned work equipment of, for example, 7 to 8 ata, which through the nozzle 2o is supplied, flow into the space 15 and from there radially from the outside to penetrate the inside of the storage mass 12, this extracting heat from the storage mass and is heated itself, almost to the temperature, for example 65o °, with which the relaxed working fluid entered the storage mass beforehand. The tensioned work equipment heated in this way enters room 2i, lifts due to its overpressure, the valve 22 and thus arrives at the ring line 23, from which it together with the heat storage device that is currently switched to heat emission in the other io and io 'heated, tensioned work equipment into the vertically upward leading Pipe 2 enters.

In this way, the storage mass i2 has largely recovered the heat withdrawn, the slide 16 moves up again, whereby it is initially in reaches the position shown in Fig. i, in which he has the lower rim of Openings of the slide sleeve 17 has closed. There is then no tension Work equipment more one. As a result, the valve 22 lies on its seat. The Slide 16 then moves further up, giving the upper rim of openings in the slide sleeve 17 free, whereby the tension still present in the space 15 Working fluid to the nozzle 18 and to the exhaust pipe ig can escape. As soon as the slide 16 has completely exposed the upper ring of openings in the slide sleeve 17, the Venti18 is also raised, which again leaves the annular space 6 through the nozzle 7 the hot relaxed working medium can enter the heat storage io, whereby the heating of the storage mass 12 is repeated in the manner described above.

- A difference when heating the heat storage io compared to the The heat accumulator is heated up insofar as the warm, relaxed work medium, which passes through the nozzle 7 on the valve 8 in the space g, here with preheated combustible gas supplied through line i i is mixed. This Gas which flows through the line i i is released from the valve 24, which is automatic or better still inevitably controlled, let through, gets into the Annular space ä5 and from this through the - openings 26 into the space g, in which the from the holes 26 exiting jets of the combustible gas the flow of the relaxed Meet the work equipment approximately at right angles. Through this and through the first narrowing, then widening flow path ensures thorough mixing of the im essential relaxed working equipment consisting of air with the flammable Gas, instead of which liquid or less heated air is blown in dusty, solid fuel can occur. On the hot walls of the room 13 ignites the mixture of air and combustible gas, provided this Ignition does not occur during the mixture because of the level of temperature, for example between 600 and 65o ° takes place. The incineration increases Temperature to z ioo °, for example. The combustion gases enter at this temperature from the annular space 14 into the columns of the heat storage mass 12, to which they their Dissipate heat to then just as described above for the heat storage i o ' is, cooled in the space 15 and from there through the slide 16 to Exit nozzle 18 and from there to get into the exhaust pipe ig.

After having heated up the heat storage mass sufficiently in this way is, is switched in the same way as it is described for the heat storage io ' was, where. the valve 24, which allows the combustible gas to pass, from the controller is closed or, if it is an automatic valve, as a result of its Weight and because of the overpressure that forms in the storage space, closes. In this way, the heating of the supplied through the connecting piece 2o then begins tensioned working medium, which heats up much higher in the heat accumulators is than in the heat storage io ', for example to about iioo ° C.

The heating of the flammable gas flowing through the line l i the Heat storage io is supplied, takes place in the surface heat exchanger 5, that of part of the, for example, about 65o ° warm relaxed work equipment is heated. For this purpose, the flammable gas is pressurized slightly, the can be generated in a known manner by a fan (not shown) by the line 27 is fed to the surface heat exchanger 5, which consists of a large Number of parallel pockets in which the flammable gas enters below. Thereon the flammable gas flows in the pockets from bottom to top and leaves them through the line 28 to get into the ring line 29, to which, as already above mentioned, the branch lines i i are connected to the heat storage io to lead.

The numerous pockets of the surface heat exchanger 5 become outside by the vertically downward stream of the relaxed gas used as heating gas Working medium flushed, which in pure countercurrent to the rising flammable Gas gives off the heat to this, then to this at the lower end of the heat accumulator 5 to leave cooled.

That part of the relaxed work equipment which gives off its heat to the surface heat exchanger 5, cooled to about the same extent are like the part that is passed through the heat accumulators io and io 'and then enters the annulus i9. The cooling of the two parts of the relaxed Working medium and the combustion gases at the same temperature can thereby be achieved that the amount of the amount passed through the surface heat exchanger 5 the relaxed working medium by means of the throttle valve 30 by hand or by Thermostat is regulated. In the case of regulation by thermostats, the device is taken so that the difference in temperatures in the exhaust line 31 and in the ring line 19 causes the adjustment of the throttle valve 3o.

The whole heat storage system is operated in such a way that always part of the heat accumulators io and io 'is heated up, while the remaining heat accumulators give their heat to the tensioned working fluid to be heated, and then after when switching the previously heated heat accumulator their heat to the tensioned Deliver work equipment while the previously cooled by the tensioned work equipment Heat accumulator can then be heated up. The surface heat exchanger works here i, in which the combustible gas is preheated, always in the same way. at This type of operation is the strained working fluid in the heat accumulators io, which are currently switched to heat emission, much higher, for example to I 100 °, while it is much less high in the heat accumulators, for example to 600 to 65o °, is heated. Are twice as much heat storage io for high heating of the tensioned work equipment, such as heat storage iö for lower heating, in this way the different large amounts of working equipment of the high and the low heating in the ring line 23 to then mix with a mixed temperature of, for example, 95o ° through the line 2 up to the expansion machine stream.

These different levels of heating of the partial quantity of compressed air occur in order to achieve a particularly advantageous power control of the hot air machine. If the power of the expansion machine is to be reduced, so are known Way, e.g. B. by throttling the suction line of the compressor or by reducing it its speed, quantity and tension of the entire compressed working medium is reduced. This increases the weight of the working fluid compressed by the compressor as well as the compression stress. In addition, the amount of combustible gas that is fed to the surface heat exchanger 5 to reduce, for example in that the amount of gas sucked in by the blower that promotes the combustible gas is throttled. The weight of the combustible gas is not the same Ratio like the weight of the compressed air conveyed, but somewhat stronger to decrease when, as is desired, the same temperature of the relaxed Working medium in pipe 3 reached «- should be earthed as at full load, because because of the lower tension of the tensioned work equipment, the expansion ratio for have reduced the expansion machine T and thus the temperature drop in it.

About the lower expansion ratio of the relaxation machine T and correspondingly lower fuel supply corresponding lower temperature in line 2, which leads to the expansion machine, are according to the invention does not all heat storage io and io 'in the same ratio with lower ones Quantities of tensioned work equipment and smaller quantities of heating gas are charged, rather the quantities that are passed through the fired heat storage tank io, decreased to a greater extent, about the same as the amount of the flammable gas has decreased. This maintains the temperature to which the Heat storage mass of the heat storage io is heated, about the same, d. H. for example i ioo °. In addition, through this heat storage a corresponding the lower amount of the heating combustion gases tense Amount of working material sent after switching over, reducing the amount of tensioned Working medium that is heated to the high temperature of, for example, iioo °, in relation to the tensioned working medium quantity heated to a low level in the heat accumulators is much lower than at full load, resulting in a correspondingly lower Mixing temperature for the expansion machine T supplied through the pipe 2 Amount of work equipment results.

The purpose of this regulation is to determine the temperature states of the heat storage mass to keep the heat accumulator at the same level even at part load as at full load, although the tensioned work equipment reaching the expansion machine T is a has a lower temperature. This is very important for the relaxation machine T, which had been working with part load for a while, quickly returned to full load can be brought. Would the temperature state of the heat storage masses with the load change, it would always take a certain time before the heat storage mass has adapted to the new condition. That just doesn't have a delay in doing so Power regulation result, but with the reduction of the power would initially Tensioned work equipment lower tension than at full load, but with the same Temperature as at full load, get into the expansion machine T, which as a result the lower expansion ratio, damaging influences due to the higher temperature relaxed work equipment on the machine parts that come into contact with it, would occur, which is avoided by the regulation according to the invention.

This regulation can be done by a device for each heat storage tank realized «., which is shown in Fig. 3. For moving the control spool 16, a power cylinder 32 with the piston 33 is provided. The two sides of the Power cylinders 32 are connected to the control box 36 by pipes 34 and 35, in which one is pressed by the spring 37 upwards against the end of the lever 38 Control slide 39 is located. The other end of the double-armed lever 38 rests with it the roller 4o on the cam 44 which is slowly driven by a driving force, for. B. is turned around once a minute. The cams 41 for all nine heat accumulators are arranged one behind the other on a common "shaft, and the nine associated Control slide 39 are located in a common control box 36. They are in Direction of rotation offset from one another in such a way that the heat accumulators are the same Be switched at intervals one after the other. The rotation of the shaft on which the cam discs 41 sit, can be done by an electric drive motor 42, which also the Druckölpurnpe 43, with which it can be directly coupled, drives by between the shaft of the motor 42 and the shaft of the cams 41, for example, two Worm gear 44 and 45 are connected. The pressure oil pump promotes this to the control serving pressure oil from the space 46, in which there is no pressure, in the air chamber 47, the one with the annular spaces 48, the control slide 39 and through a pressure relief valve 49 is connected to the pressureless space 46.

By the action of the rotating cam 41 and on him acting spring 37 is the spool 39 alternately by means of the lever 38 during brought half a turn of the cam 41 in the upper and lower position. As a result, the oil flow going through the pipes 34 and 35 is switched over each time, which has the consequence that the piston 33 and thus the slide 16 upwards or move down and stay in the end position until the next change of direction takes place.

The end position of the piston 33 and the slide 16 is in the fired, d. H. Storage tanks heated by combustion gases are not always OK same, but it is determined by the rule wedge 5o, against which the with the slide rod 51 firmly connected stops 52 and 53 place. These attacks are adjustable in their height on the slide rod 51.

The position of the control wedge 5o, which is displaceable in the horizontal direction, is determined by the piston 55 loaded on the one hand by the adjustable spring 54 and on the other hand by the piston 55 loaded by the compressed, tensioned working fluid Pressure and thereby pushes the piston 55 and thus the control wedge 5o to the far left. As a result, the piston 33 and the slide 16 can make their greatest stroke, as a result of which the slide 1 6 completely expose the openings controlled by it for the cooled, relaxed working medium and the tensioned working medium to be heated.

If the tension of the compressed work equipment decreases at part load, so move the piston 55 and the control wedge 5o further to the right, whereby the stroke of the piston 33 and the slide 16 are smaller, since the stops 52 and 53 against the control wedge 5o. The more with decreasing power of the relaxation machine T the tension of the compressed working fluid decreases by so more the control wedge 5o is set to the right and consequently becomes smaller the stroke of the slide 16 and the size of the openings released by it.

The non-fired heat accumulators io 'do not have this device for regulation (los stroke of the slide 16; with these heat accumulators io' the slide stroke always has the full size. -The valve 8, which may only be open in the upper position of the slide 16 , can be driven by itself or taken along on the last part of the stroke of the slide 16 by this or by the hollow slide rod 51, which is closed at the bottom, as can be seen in FIG. 3.

So that the heat storage io even with the lower loading the Keep the same operating temperatures, thermostats 65 are provided, which are in the hottest part of the heat accumulator and act on the control body 6.1, by which the supply of combustible gas is adjusted so that the temperature of the heat storage tank at the location of the thermostat and accordingly also at iNden other places remains the same for all loads.

To ensure the proper operation of those working at high temperatures To secure the heat storage system, some special arrangements have to be made.

The valve 22 is the same in the case of heat accumulators at the highest temperatures exposed, is provided with water cooling, as is the valve seat. The feed of the water to the valve and the drainage from it L-anii in a known manner done through the hollow valve stem. It is useful to have supply and discharge pipes yielding to connect. This can be achieved by placing the tubes at the top Surrounding the connection head of the spindle of the valve 22 in a spiral shape. Also 'metal hoses can be used for the supply and discharge of the cooling water.

Because the relaxation machine arranged above the heat storage system T is to be stored for example in the hell of its horizontal shaft, so are at the pipe 2 for the supply of the hot, tensioned working medium and at to provide expansion pieces to the pipe 3 for the discharge of the relaxed working medium, which are equipped in a known manner with a piston seal or a flexible corrugated tube could be. It is also advisable to use these expansion pieces because of the high To provide temperatures with water cooling.

While with your pipe 3 it is enough for the relaxed work equipment, to carry out the expansion piece 56 in this way must be done in the case of the expansion piece 57 of the pipe 2 because of the overpressure that prevails in this pipe and for example 7 or 8 ata, a special relief device must be provided, which consists in that on the upper part of the expansion piece 57 tie rods 58 attack, which are connected at their lower end to your compressed air cylinder 59, which is closed at the top by the piston 6o, which is against the casing of the ring tube 23 presses. The pressure cylinder 59 is connected to a space which is fulfilled by the compressed work equipment, for example by the line 61 with the interior of the pipe 2.

Are in the lines leading to the heat storage 7 for the relaxed working means slide 62 is provided and in the lines 18 through which the relaxed, cooled working medium reaches the annular space i 9, slide 63, and finally it is ensured that the lines i i for the combustible Gas by hand, for example by means of the thermostat during operation regulated valve 64., can be shut off, so everyone can the heat storage io including the associated control can be removed and through a replacement heat storage unit can be replaced. During the substitution period will be the operation is maintained by the remaining heat storage.

In such cases, in which a poorly igniting gaseous fuel is used, it is advisable to first take it from the annular space 25 through holes 70 in the highly heated walls before mixing it with the combustion air in space 9, as shown in Fig. 5 Annular space 71 let zti occur, where its temperature increases further. At this high temperature, the gaseous fuel then passes through the bores 26, which are offset on the circumference with respect to the bores 70 , into the space 9, where it mixes with the relaxed working medium, which serves as combustion air.

Instead of the heat storage io and io 'on a circular wreath around to arrange the tube 3 around, the wreath, if it takes into account the space available it is desirable to also deviate from the circular shape, e.g. B. be oval.

Claims (3)

PATGIITANSPRLC111 .: i. A power machine system operated with a gaseous working medium, in which the compressed working medium on the one hand and heating gases on the other hand are alternately passed over several heat accumulators, then this heated, tensioned working medium is relaxed to perform work and then mixed with fuel in a combustion chamber arrangement to generate combustion heating gas according to patent 695 838, characterized that part of the relaxed working medium is passed as heating gas directly through special heat storage (io ') for heat exchange with part of the compressed working medium to be supplied to the expansion machine and that the differently highly heated compressed working medium quantities are mixed with one another in a controllable ratio before entering the expansion machine. 2. Machine system according to claim i, characterized in that to reduce performance of the expansion machine Amount and tension of the entire compressed work medium in a known manner, e.g. B. by throttling the suction line of the compressor or Reduction of its speed, be reduced and that with combustion heating gases heated heat accumulators (io) lower combustion heating gas and working medium quantities in relation to the amount of fuel gas and the amount of working fluid used immediately from relaxed working medium heated heat accumulator (io ') are supplied than at Full load, while maintaining the same temperature as with combustion heating gases heated heat storage as at full load. 3. Machine system according to claim 2, characterized characterized in that the relaxed working medium supplied to the combustion chamber arrangement and that which is supplied to the heat accumulators that are heated by the combustion heating gases strained work equipment by throttling the amount of gas that the through relaxed working medium is fed directly to heated heat accumulators, be reduced and the amount of fuel supplied to the combustion chamber assembly z. B. is controlled by a thermostat so that the temperatures of the combustion heating gases heated heat storage remains the same as at full load. 4 .. machinery according to claims i to 3, characterized in that each by combustion heating gases heated heat accumulator (io) a special, expedient of 'the storage mass has enclosed combustion chamber (13). 5. Machine system according to claim 4, characterized characterized in that the combustion chamber arrangement in each case as a highly heated Guide body is designed for the mixture of combustion air and fuel, one on a mixing chamber of combustion air and fuel in the direction of flow has the following constriction with a subsequent conical expansion (Fig. i) «- 6. Machine installation according to claim 5 using gaseous fuel, characterized characterized in that the combustion chamber wall of an annular cavity (71) with Gas supply openings (70) to a gas inlet space (25) is surrounded, which in the circumferential direction are offset from the gas outlet openings (26) to the mixing space (g) (Fig. 5). 7. Machine system according to claim 4, characterized in that the for the Entry of the heating gases and the exit of the heated, tensioned working medium Valves (8 and 22) provided heat storage (io, io ') for the exit of the cooled Hot gases and the inlet of the working fluid have a slide control, their opening widths for the heat accumulators heated with combustion gases can be reduced in size with decreasing machine performance. B. machine system according to the Claims i to 7, characterized in that the ring-shaped around a vertical Tube (3, 4, 6) for the relaxed working fluid arranged heat accumulator (io, io ') with their lower parts connected to this by radial pipe connections (7) and with their upper parts (21) by connecting lines in which the valves (22) are located, with a ring line (23) for the heated, tensioned working fluid are connected, from which a branch leads to the expansion machine (Fig. i and a). G. Machine installation according to claim 8 using gaseous fuel, characterized marked that. the tube (4) for the relaxed work equipment in a middle one Path in which there is a heater (5) for the combustible gas, and one outer (6) this surrounding path is divided, to which the branch lines (7) are connected to the heat accumulators (io, io '). ok Machine system according to claim g, characterized in that in the cooled heating gas flow behind the heater (5) there is a control device (8o) for the combustible gas in order to control the heating gas line, in which the fuel gas opposes each other offset control discs (q.1) can be controlled (Fig. 3 and q.). 12. Machine system according to claim r i for Control of the temperature of the tensioned work equipment when the output changes the relaxation machine, characterized in that the piston travel of the power cylinder (32) by a spring-loaded piston (55) on which the pressure of the tensioned working medium acts, is reduced with decreasing working fluid voltage. heater (5) is located, to supply such an amount of heating gas that it is approximately at the same temperature cools down like the one going through the heat accumulators (io, io '). ii. Machine system after Claim 7, characterized in that for actuating the slide (i6) and the Inlet valves (8) to the heat accumulators (io, io ') power cylinders (32) are provided are whose pressure medium (pressure oil, compressed air) from a control box (36) through