WO2015007527A2 - Expansion machine - Google Patents

Abstract

The invention relates to an expansion machine for driving a unit in a motor vehicle, comprising two expander turbines (T1, T2) to which vapor can be applied, wherein the shafts (W1, W2) of the two expander turbines are coupled to each other by means of a freewheel coupling (FW), wherein the first turbine (T1), which is associated with the smaller power, is arranged on the shaft (W1) from which the output power can be drawn, the shaft (W2) of the second turbine (T2) having the greater output power is connected to the first shaft (W1) by means of the freewheel coupling (FW), vapor can be applied to the two turbines (T1, T2) on the input side from an inlet (I), and the outlets of the turbines act on a common outlet (O), wherein an adjustable valve (V1) is arranged upstream of the turbine (T2) having the greater power.

Description

 expander

The invention relates to an expansion machine of the type of claim 1.

In steam-driven expansion machines superheated steam is preferably supplied under a first pressure of a turbine and relaxed in this to a lower pressure. Through this expansion, the turbine generates mechanical power that is provided on the turbine shaft. In motor vehicles, steam turbines serve the direct generation of mechanical energy (eg direct injection into the crankshaft), the indirect supply of electrical energy (conversion into mechanical energy and via a generator into electrical energy) and the drive of ancillary units and compressors, which Charge the internal combustion engine.

From EP 2 055 912 A2 a vehicle drive train with an internal combustion engine, an exhaust gas turbine and a steam cycle with steam generator and steam-driven expansion machine is known. The expansion machine is in drive connection with the exhaust gas turbine.

DE 10 2006 028 807 A1 describes a heat engine with synchronized cellular wheels.

In power plants differently structured, sized gas turbines are operated on a shaft and thus form a gas turbine group. EP 0 915 232 A1 describes a method for operating a power plant.

A heat engine with two expanders, a low-temperature expander and a Hochtemperaturexpander describes the DE 102 59 488 A1. The two expander act on a common shaft - also for each expander its own shaft and / or a freewheel can be provided, which are connected via a clutch with fixed or variable ratio with each other and an output shaft. Provided are a first and a second pump and a first and a second heat exchanger, which are connected to an exhaust system of an internal combustion engine.

It is an object of the present invention to provide an expansion machine in improved form over known solutions.

The solution to the above object is achieved by an expansion machine having the features of claim 1. Further developments emerge from the subclaims.

The expander according to the invention consists of two expander turbines, whose shafts are coupled together with a one-way clutch, wherein the smaller power associated first turbine is disposed on the shaft, the output power is removed, the shaft of the second turbine with the larger output power via the one-way clutch is connected to the first shaft, the two turbines on the input side of an inlet can be acted upon by steam, the outputs of the turbines act on a common output, the turbine with the larger power upstream of an adjustable valve. In a preferred embodiment of the invention, the first lower power turbine is associated with a conduit connecting the inlet to the outlet. In this bypass line another controllable valve is arranged. The valve associated with the inlet precedes the second turbine with the greater power and is located behind the branch of the bypass line of the first turbine. A further embodiment provides a bypass associated with the first turbine with the lower power, which connects the inlet of this turbine with the outlet. In this bypass line a second controllable valve is arranged. The branch of the bypass line is arranged downstream of the second turbine upstream valve. Furthermore, the output of the first turbine is assigned a third valve, such that the current through the first turbine and that of the bypass can be set in total via this third valve. A further embodiment supplements this variant by a fourth valve, which is arranged in a bypass assigned to the second turbine.

Hereinafter, an embodiment of the invention will be explained purely by way of example with reference to FIGS.

FIG. 1 shows a first circuit of an expander according to the invention. The expansion machine consists of two expander turbines T1, T2 in a common housing EG. The two turbines T1, T2 are mounted on a respective shaft W1, W2, which are coaxial with each other, aligned with each other. The wave W1 is at the same time the output shaft of the expander, via which the output power can be tapped off. The shaft W2 is connected to the shaft W1 by means of an overrunning clutch FW.

The turbine T2 is designed as an expander turbine for a high steam output / heat output. The turbine T1 is designed for smaller steam and heat outputs. The one-way clutch FW between the turbines T1, T2 and the waves W1, W2 causes the shaft W2 can drive the shaft W1, when the speed is greater. If the rotational speed of the shaft W2 is smaller than the rotational speed of the shaft W1, then the shaft W1 overtakes the shaft W2, the shaft W1 runs free. The turbines T1, T2 have the same rotational speed, correspondingly the freewheeling clutch FW designed.

The turbines T1 and T2 are beausfschlagbar via an inlet I with steam. The inlet I leads via a direct channel in the housing EG directly to the turbine T1. About a branch with a first adjustable valve V1 is the over

Inlet I supplied steam turbine T2 can be fed. The turbine T1 can be bridged with a valve V2 downstream of the valve V1. The output of the turbine T1 is still controllable via a third adjustable valve V3. The steam flowing through the turbine T1 and / or T2 leaves the housing EG via the outlet O.

At low heat output, only the turbine T1 is operated at low power. Valve V3 is open, the valves V1, V2 closed. By the one-way clutch only the shaft W1 of the turbine T1 runs.

At average heat outputs only the turbine T2 is operated. Valve V1 is open, valves V2 and V3 are closed. The steam supplied via the inlet I only flows through the turbine T2 and leaves the outlet O of the housing EG. The turbine T2 drives in this mode, the shaft W1 via the one-way clutch FW. The turbine T1 is idling, i. without steaming.

A serial use of the turbines T1 and T2 is possible when the valves V1 and V3 closed, valve V2 is open. The steam supplied via the inlet I thus first flows through the turbine T1, then via the path opened by the valve V2, the turbine T2. This mode of operation allows a high thermal efficiency due to a low condenser temperature. The power supplied by the turbines T1 and T2 can be tapped off via the shaft W1. A parallel mode of operation is possible if via the valves V1 and V3 - V2 closed - the vapor stream of the inlet I is fed to both turbines. In this mode the maximum power is available.

FIG. 2 shows a second circuit of an expander according to the invention. Here only two valves V1 and V2 are provided. Thus, it is not possible to operate only the turbine T2 in a medium power range. Ausch a two-stage expansion - serial operation - is not possible. An advantage over the embodiment according to FIG. 1 is that the dimensioning of the turbine T2 is independent of that of the turbine T1.

The circuit of Figure 3 supplements the circuit of Figure 1 by a valve V4. With the valve V4 in the branch surrounding the turbine T2, the turbines T1 and T2 can be dimensioned independently of one another, since the turbine T2 can be bridged in an adjustable manner by the controllable valve V4.

LIST OF REFERENCE NUMBERS

EG expander housing

1 inlet

 O outlet

 T1 first turbine

 T2 second turbine

 W1 first shaft, output shaft

W2 second wave

 FW freewheel clutch

 V1 valve

 V2 valve

 V3 valve

 V4 valve

Claims

claims

1 . Expansion machine for driving an aggregate in a motor vehicle, with two steam-expander expander turbines (T1, T2), wherein the shafts (W1, W2) with an overrunning clutch (FW) are coupled together, wherein the smaller power associated with the first turbine (T1) on the Shaft (W1) is arranged, the output power is removed, the shaft (W2) of the second turbine (T2) with the larger output power via the one-way clutch (FW) to the first shaft (W1) is connected, the two turbines (T1, T2) on the input side of an inlet (I) can be acted upon with steam, the outputs of the turbines to a common output (O) act, the turbine (T2) with the larger power upstream of an adjustable valve (V1) is arranged.

2. expansion machine according to claim 1,

the first turbine (T1) with the lower power is associated with a bypass line which connects the inlet (I) with the outlet (O), wherein in this bypass line, a further controllable valve (V2) is arranged.

3. expansion machine according to claim 1,

the second turbine (T2) with the higher power is associated with a bypass line which connects the inlet (I) with the outlet (O), wherein in this bypass line, a further controllable valve (V4) is arranged.

4. at least according to claim 1,

the output of the first turbine (T1) with the lower power downstream of a controllable valve (V3).