DE2750549A1 - Combined IC and steam engine - uses engine coolant heat to evaporate, and exhaust heat to superheat fluid in rankine cycle - Google Patents

Abstract

The combined IC and steam engine has a conventional fuel supply system to the IC engine (3) but a heat exchanger (4) added to the exhaust system. This acts as superheater for the steam system, evaporation taking place in the engine cooling passages or a coolant heated exchanger (6). After doing work in engine (7) the steam flows to a condenser (8), a circulating pump (5) maintains the flow. Connection between engine parts may be permanent or via a clutch coupling. The condenser can use ambient air or have a coolant unit (9).

Description

Combined combustion - steam engine

The invention relates to a method for generating kinetic energy and a device for performing the method according to the generic terms of Claims 1 and 10 The invention is based on the object of internal combustion engines As heat dissipated energy loss predominantly again the gain of mechanical energy to feed.

There are several methods of generating kinetic energy known from liquid or gaseous fuels.

The development began with indirect processes, with those with the Heat of combustion from hydrocarbons burned outside the working cylinders Water vapor was generated, part of whose energy content was in working cylinders was converted into kinetic energy.

The transition to the direct procedure was a clear step forward with combustion in the working cylinder itself. This step was of particular importance for use in vehicle engines because of the associated reduction in Engine weight and the simplification of handling.

Despite further improvements in the processes and technical devices is the efficiency achieved today with regard to the utilization of the used Thermal energy not more than 25 - 30% To cool the combustion chambers, about 25 ß of the released energy can be dissipated.A larger amount of around 30 - 35% goes unused into the atmosphere with the exhaust gases.

#un methods are known with which a small part of the in the exhaust gases The energy carried along is used to drive the supercharger, but walk anyway still approx. 65 - 70 * of the energy used for conversion into kinetic energy lost.

In large engines, water vapor is sometimes generated in exhaust gas boilers, with where electrical energy is generated in turbo-generators by utilizing the large, im Relaxed water vapor remaining. Residual energy for heating purposes and hot water supply, is A good overall efficiency achieved The utilization of this residual energy with medium and smaller vehicle engines, the demand is usually much too low In addition, the engine cooling heat remains as much as possible unused.

According to the invention, a new method is now proposed which a significantly higher proportion of those occurring in the combustion part of an engine Uses waste heat and directly increases the drive energy of the machine.

The process is based on a two-stage conversion process of thermal energy based in mechanical energy.

The first stage is a traditional mixed cycle process, the the second stage is a closed Rankine process.

It is important that the output strands of both to carry out the work process of required machines or units of machines rigid or by an optionally releasable coupling, e.g. centrifugal clutch, with each other This is what makes it simple, especially for vehicle engines and compactness, which is decisive for the use value.

The construction of the combined combustion - Steam engine, if for example the basic version of a 6-cylinder engine is designed so that 4 cylinders and accessories like a conventional internal combustion engine, 2 cylinders of the same dimensions as a steam engine, and all together on one crankshaft work.

To convert the energy brought in with the fuel in the primary - And / or secondary process can Any design of a reciprocating piston machine known per se, rotary piston machine or rotary machine in one for the special purpose lightly if necessary modified version can be used.

It may be useful to share the steam-powered engine part with another To run speed as the internal combustion engine part. with the help of an intermediary mechanical or hydraulic gears, the speed must be adjusted.

Since an internal combustion engine only has a design-related, specific one Speed can give off energy - in contrast to a steam engine - it can be beneficial be the combustion engine part via a fluid coupling, a converter or a automatic gearbox to work on the vehicle or unit to be driven permit.

The steam engine part of the internal combustion steam engine according to the invention then works via a disengageable clutch possibly with mechanical reduction or reduction on the output shaft of the converter or the automatic transmission.

This arrangement has the advantage that when starting the engine, the steam engine part does not have to be moved.

To utilize the heat to be dissipated by the engine according to Rankine - Organic or inorganic liquids with a specific process are Heat below 3.3 kJ / kg a boiling point at 20 bar of essentially below 1300C and whose heat of vaporization at atmospheric pressure is less than 1300 kJ / kg, in particular advantageous by mixing different liquids and adding them if necessary The required property profile can be achieved with lubricants.

In Fig. I is the principle diagram of the method of the invention combined combustion steam engine shown.

The primary energy line from the fuel tank is labeled A 1 via carburetor 2, or the Elneprltsystem, to rotor 3, from where it is not there used in the exhaust gas stretching part via the heat exchanger labeled 4 goes.

In the secondary circuit B, the liquid working medium is fed by the pump 5 brought to the working pressure and through the pressure-resistant heat exchanger 6 and / or pumped by the motor 3. The medium evaporates partially or completely, then leaves through the exhaust-gas heated heat exchanger 4 and is completely evaporated there and overheated.

In the steam engine 7, the steam is a large part of its energy content as mechanical kinetic energy. The expanded steam then enters the condenser 8, either directly through air and / or optionally through the liquid a special cooling unit 9 is cooled. From there the condensed flows Working medium of the pump 5 see below, with which the circuit is closed.

Of course, the exhaust gases can on their way from the combustion engine 3 to the heat exchanger 4, for example, flow through an exhaust gas turbocharger and thereby give off part of their energy, or their energy content in the case of catalytic post-combustion enlarge.

In order to continuously replace leakage losses of the working medium and In order to prevent harmful aging, it is advisable to use fuel of the internal combustion engine, its low-boiling components and / or additives as Working medium of the Damprmotore can serve on the way from tank 1 to carburetor - Or to heat the injection system 2 in a device 10 and the resulting vapor portion into the steam cycle, for example into the condenser 8, where it condenses there, after the leakage losses have been suctioned off, the excess amount that occurs is - to another Place removed - fed back to the fuel line of the internal combustion engine Small cooler 11 brings the fuel heated at 10 back to use temperature cooled down.

If a combined piston steam engine is used, the common Gaee from the crankcase via the crankcase ventilation, as is usual with the combustion process This means that the total amount fed to the internal combustion engine is then Fuel composition very similar to that of the fuel in the tank.

With separate crankcases, as well as separate housings in general, the detectable leakage steam is expediently fed back directly to the condenser 8.

The control of the amount of the working medium in circuit B, which is from the pump 5 is pressurized and conveyed, can thermootatioch and / or The power is drawn off either via a servo valve in front of the steam engine part 7, or via one as well off the accelerator controlled Einriohtung to change the opening angle of the inlet valve or valves regulated between 0 ° and 450 crank angle.

FIG. II shows, on a reduced scale, a simplified plan view sui a 4-cylinder engine according to the invention. The exemplary embodiment is described below.

With 3a, 3b, 3c the cylinders of the internal combustion engine are parts of the combined engine, with 7 the cylinder of the steam engine is designated All cylinders work with their power transmission parts on the common crankshaft.

Except for the valve control and the form of the compression space the mechanical parts of both engine parts be the same.

The heat transfer from the combustion engine to the working medium can can be done in different ways: directly, by drawing the working medium from the pump 5 pressed through channels or pipes 12 in the oil pan, in the engine block and in the cylinder head is, indirectly, by transferring the heat to be removed from a liquid in a heat exchanger transported and transferred there to the working medium.

Partial application and partial use of both options can be provided.

The working medium then flows through the output heat exchanger 4, the is expediently designed at the same time as an exhaust silencer. The insulation 13 completely or partially surrounds the engine including the heat exchanger 4 to prevent heat losses largely to be avoided. The working steam then releases through displacement and Expansion takes a significant portion of its energy from the moving piston into cylinder The steam inlet and outlet are controlled, for example, by means of a block shaft and valves.

The relaxed steam is pushed from the piston to the condenser 8, where it is liquefied by cooling. From there, the displacement pump 5 pumps the working medium back to the part of the circuit with the higher pressure level.

L e r s e i t e

Claims (21)

Claims: Method for generating pathological energy from a low-boiling working medium using an internal combustion engine, thereby characterized in that the waste heat from the internal combustion engine to evaporate the working medium that the steam formed drives an expansion machine, and that the two output strands rigidly or by means of an optionally detachable coupling be connected to each other. 2. The method according to claim 1, characterized in that the working medium evaporates, expands and condenses in a self-contained steam line of the device and is required. 3. The method according to claim 1 to 2, characterized in that as Working medium an organic or an inorganic liquid is used specific heat is below 3.3 kJ / kg, with a boiling point at 20 bar of essentially below 1300C and a freezing point below -20 ° C, and their heat of vaporization Atmospheric pressure is less than 1300 kJ / kg. 4. The method according to claim 1 to 3, characterized in that as Working media acetone, SO3, N2O4, gasoline, carbon tetrachloride, hydrogen cyanide and / or pentane or mixtures of pentane with benzene, acetone with benzene, methanol ait beton, 802 with SO,, N2O4 itt 1102 or hexane with pentane, further halogenated Hydrocarbons and mixtures thereof with hydrocarbons can be used. 5. The method according to claim 1, characterized in that the working medium the fuel of the internal combustion engine is used, and that at least a part of which is constantly exchanged for fresh fuel. 6. The method according to claim 1, characterized in that the fuel of the internal combustion engine on the way from the tank to the carburetor or injection system of the Internal combustion engine is heated to the low-boiling components of the fuel and / or to evaporate certain additives that are advantageous for the operation of the steam engine and to be fed into the circuit, for example in the condenser. 7. The method according to claim 1 to 6, characterized in that the Internal combustion engine is cooled directly and / or indirectly by the working medium that part of it evaporates and the mixture of liquid and steam in the superheater completely evaporated and overheated. 8. The method according to claim 7, characterized in that an indirect Cooling of the combustion engine by cooling the lubricating oil and / or the cooling water or a heat transfer oil is carried out with the help of the working medium. 9. The method according to claim 7, characterized in that cooling of the internal combustion engine by direct cooling of the cylinder head and / or the the combustion chamber surrounding side walls is applied. 10. Apparatus for performing the method according to claim 1 to 9, characterized in that the internal combustion engine and the expansion machine of In each case at least one unit of a reciprocating or rotary piston machine or a turbine are formed that the two output strands rigid or by a optionally disengageable coupling are connected, and that facilities for continuous Evaporation, condensation and delivery of the liquid working medium Torgesohen are. 11. The device according to claim 10, characterized in that the Device for evaporation of the working medium from direct and / or indirect Cooling devices for the engine and a superheater consist of the hot exhaust gases and the working medium flows through it. 12. The device according to claim 11, characterized in that the Steam train for cooling the internal combustion engine in a piston engine aue one of the working medium flowed through channel system in the cylinder head and / or from a the sewer system surrounding the combustion chambers. 13. The apparatus according to claim 11, characterized in that the Steam line for cooling the lubricating oil in a piston engine from an in the oil pan arranged channel system consists, which is flowed through by the working medium. 14. Apparatus according to claim 11 to 13, characterized in that the steam line for cooling the engine and / or the lubricating oil in a pipe system consists of one or more lines, the outlet of which opens into the superheater. 15. Apparatus according to claim 10 to 14, characterized in that the superheater is also designed as a silencer for the exhaust gases. 16. Apparatus according to claim 10 to 15, characterized in that the device for condensing the working medium behind the outlet of the expansion machine is arranged, and that egg consists of a heat exchanger from the working medium and is traversed by a secondary coolant. 17. The device according to claim 16, characterized in that the Coolant liquid or gaseous int, and that possibly one Cooling device, which can be a refrigeration machine known to calibration, to adjust the temperature of the coolant is pre-set 18. Apparatus according to claim 10 to 17, characterized in that the device for conveying the liquid The working medium is a positive displacement pump, preferably a gear pump. 19. The apparatus of claim 10 to 18, consisting of a four Drive unit arranged in a row, having cylinders of the same size, from of the three cylinders form the internal combustion engine and one cylinder the expansion machine directly flanged devices for continuous evaporation, condensation and conveying the liquid working medium, 20. Apparatus according to claim 19, characterized by a completely or partially closed encapsulation made of a heat or / and sound insulating material. 21. Apparatus according to claim 19 to 20, characterized in that the parts forming the steam train to the fuel system of the internal combustion engine belong or bypass it.