DE19917276A1 - Energy store for automobile with hybrid drive uses flow energy of combustion engine exhaust gases for driving rotary flywheel mass acting as rotor of electrical machine - Google Patents

Abstract

The energy store uses a flywheel mass (5) which is rotated by the flow energy of the exhaust gases from an automobile combustion engine (1), for temporary energy storage by its rotation, the flywheel mass acting as the rotor of an electrical machine used as a generator for providing electrical energy fed to electrical loads (8,9) or an electrical energy store (12) via power electronic modules (7). The stored electrical energy can be fed back to the electrical machine for use as an electric drive motor.

Description

Internal combustion engines have, due to their operating principles, only relatively low percentages of efficiency. Most of the energy which is released by the combustion process escapes as waste heat to the atmosphere. In the course of ever increasing demands on energy efficiency of motor vehicles and environmental protection is paying attention increasingly focused on hybrid solutions. One promises of these in the near future, in addition to other alternative drive concepts high proportion of the volume of vehicles produced and the advantage of Partial takeover capability of proven and mature engine technology. Hybrid vehicles have separate units to provide energy (e.g. internal combustion engine, fuel cell), for converting forms of energy (e.g. electric motor) and for storing energy (batteries, supercon capacitors, tanks for compressible media or flywheel mass storage).

The technology of internal combustion engines has developed in recent years in such a way that engines which are charged with the energy of the exhaust gases are used more frequently. As a result, according to

P _e = inw _e .V _h , (1)

mean:
i → engine factor (4-stroke: i = 0, 5; 2-stroke: i = 1.0)
n → speed
V _h → speed
w _e → specific work
by increasing the density of the fresh air supplied to the engine, the specific work in the engine can be increased.

This leads to engines with the same power as in the uncharged Zu now stood to be able to build smaller things, which due to the smaller ones masses to be braked and braked when driving turn into one Saving fuel leads. The use of the energy contained in the exhaust gas However, such units, mostly exhaust gas turbochargers, cannot completely respectively. According to [1], a very small portion is sufficient in the usual motor driving cycle The engine fresh air often does not utilize the energy contained in the exhaust gas flow to compress enough. On the other hand, there is so much energy at full load Decree that this can no longer be used meaningfully and mostly via a device called "wastgate" to the atmosphere must be left.

Internal combustion engines, especially gasoline engines, have their consumption optimal operating point in the area of high power output, i.e. in the throttled operation. At this point a lot of energy falls in the Exhaust gas flow that can no longer be used here. In the case of the one exhaust gas turbochargers, part of the exhaust gas energy can be used at pure suction motors lose this energy.

According to [1], the use of the energy contained in the exhaust gas can be determined by me chanic change of the same in a utility turbine and connection to the Output shaft of the internal combustion engine take place. The power turbine can be operated in conjunction with a turbocharger or alone.  

The arrangement of the utility turbine in the network is called "turbo compound ". The mechanical use of energy by Auf circuit to the motor output shaft and the use of energy Conversion into electrical energy in a utility turbine without combined operation [2].

It is also known [3] that the mechanical energy of thermal power ma machines can be buffered directly in flywheel storage and to cover energy demand peaks with energy from a peri odische operation of an internal combustion engine can be used.

The object of the invention is to couple the energy flows in a system, especially with the hybrid vehicle, to achieve that with By means of a power split, the energy of the exhaust gas flow as required and offer both the compressor stage of the turbocharger and one can be fed to the flywheel.

The solution according to the invention is achieved by the momentum mass as an integral part of an electrical machine (rotor) is shifted, the inherent energy in electrical energy, switchable each to convert and deliver as needed. The electric machine can work as a generator and motor.

Since in vehicles when using and converting the vehicle's own loading Motion energy, braking through energy recovery, an oversupply of energy can occur, the present invention is able to overcome this oversupply store temporarily. This is done by using the electrical machine as an electric motor that accelerates the rotor mass and thus the mechanical energy of the flywheel increases.  

Thus an increase in the speed of the flywheel over the speed of the drive train of the power turbine can take place, a clutch (free barrel, magnetic coupling, or the like) provided to an automatic or to enable controlled switching on as required.

The need-based connection and disconnection of the flywheel mass storage and its electrical coupling to the overall system leads to a reduction in Drag losses and to improve the overall efficiency systems compared to mechanically coupled flywheel mass storage systems according to the state of the art.  

A possible embodiment of the invention is described with reference to the following figure:
The high-energy exhaust gases of an internal combustion engine ( 1 ) are fed to an arrangement of a turbine with a coupled compressor ( 4 ) and a coupled flywheel ( 5 ). The compressor delivers to the inlet tract of the internal combustion engine ( 3 ) as much compressed air, which may be additionally cooled by means of a charge air cooler, as is required in the respective operating state of the internal combustion engine. Additional energy of the turbine output shaft, which is no longer required to compress the charge air, is passed on to the flywheel ( 5 ) via the clutch ( 14 ) and temporarily stored there as mechanical energy. The se stored energy can, as required in the overall system, controlled by the control electronics (10) of the electric machine (5), the mechanical energy stored in the rotor, Gewan punched into electrical energy, processed by the power electronic modules (7) and via the power transmission paths ( 6 ) to the consumers ( 8 , 9 ) or intermediate storage ( 12 ) are supplied.

In braking operation, the energy generated in the machines running in generator mode ( 8 , 9 ) is passed on to the power electronics modules ( 7 ) via the power transmission paths ( 6 ). From there, the energy is then fed via the power flow path ( 11 ) into the intermediate store ( 12 ) and / or the flywheel mass store ( 5 ) and buffered. The control strategies for the transfer of energy are stored in the control electronics ( 10 ).

Reference drawing list

1

Internal combustion engine

2nd

Collection channel of the combustion gases

3rd

Fresh air supply

4th

Turbocharger arrangement

5

Electric machine with integrated flywheel mass storage, acting as a motor or generator

6

electrical power transmission paths

7

Power electronics modules (LE)

8th

Electric machine for driving (with braking)

9

second electric machine for driving (with braking)

10th

Control electronics, preferably µ computers

11

electrical power flow paths between LE and buffer

12th

electrical buffer (accumulator, supercapacitor, etc.)

13

Information flow path from control electronics to LE

14

Turbine output shaft with switching element for interrupting the flow of energy

Claims (8)

1. Arrangement for the temporary storage of energy in the form of Ro tion energy of a flywheel, preferably for use in hybrid vehicles, characterized in that the energy of the exhaust gas stream of an internal combustion engine drives a flywheel, which is at the same time rotor of an electrical machine, the electrical energy flow of which can be switched with electrical energy sources and / or learning and / or consumers is coupled. 2. Arrangement according to claim 1, characterized in that the electri machine is any type of electrical machine that operates as a motor is also operable in generator mode. 3. Arrangement according to one of the preceding claims, characterized net that the flywheel switchable to a turbocharger arrangement is coupled. 4. Arrangement according to claim 1, characterized in that the Einlei device of the electrical energy can be switched into the flywheel. 5. Arrangement according to claim 1, characterized in that the wall the mechanical rotation stored in the flywheel energy switchable into electrical energy. 6. Arrangement according to one of the preceding claims, characterized in that the source of the fed back into the temporary energy storage Energy is at least one traction motor running in generator mode. 7. Arrangement according to one of the preceding claims, characterized net that the switching of the energy flows from and into the assemblies  of the system through information processing electronics and power electronic actuators is made possible. 8. Arrangement according to one of the preceding claims, characterized in that the control strategies of power interconnections in the overall system in maps within the information processing electronics sets are.