DE3816483A1 - Unit comprising an internal-combustion engine and a generator coupled to the latter - Google Patents

Abstract

In a unit (1) comprising an internal-combustion engine (61) and a generator (62) coupled to the latter, having a coolant circuit (16) of the internal-combustion engine (61), having a circulating device (14) for forced circulation of air over the unit, having an air-liquid heat exchanger (12) for recuperation of the heat energy of the air after heating by the unit (1) and having a coolant-liquid heat exchanger (15) for recuperation of the heat energy of the coolant after heating by the internal-combustion engine (61), recuperated heat energy being capable of being fed to a consumer (3), the utilisation of the available energy is to be improved. This is achieved in that the air-liquid heat exchanger (12) can optionally be connected in series with the coolant-liquid heat exchanger (15) and before the latter in the flow direction (4) of the liquid circuit (1), and that flow can pass through a by-pass (6.1) to the coolant-liquid heat exchanger (15) as a function of the liquid outlet temperature (28) of the coolant-liquid heat exchanger (15). <IMAGE>

Description

The invention relates to a unit according to the Oberbe handle of claim 1.

Such a unit provides an energy supply system in the The meaning of a combined heat and power plant, depending on the use case used as a stationary or mobile system can be. For the latter use case in particular especially smaller, prefabricated block units into consideration, the can be handled and transported as a whole.

With such an energy supply system is already featured propose to take advantage of the unit's waste heat. For this can use a coolant / liquid heat exchanger for recovery heat energy of the coolant of the internal combustion engine after heating by the combustion engine and an air / Liquid heat exchanger for the recovery of thermal energy serve the air after heating by the unit. The return Recovered heat energy can be supplied to a consumer be made usable.

The invention has for its object in a unit of initially referred to the exploitation of existing energy to improve.

This task is characterized by the characteristics of the contractor spell 1 solved.

In the embodiment according to the invention, it is possible to heat recovered by the air / liquid heat exchanger energy optionally in a circuit with the coolant / flux liquid heat exchanger or separately to the consumer. This creates opportunities for targeted energy exploitation. In the event that the operating temperature of the Ver  internal combustion engine is relatively low, the consumer a large amount of heat decreases and / or a high operating temperature temperature is sought, the air / liquid recovered heat energy at least that Coolant-liquid heat exchanger and / or the consumer are fed. It is also possible to use the air / river liquid heat exchanger and with the coolant / liquid Heat exchanger absorbed heat energy in a circuit Feed consumers, depending on the operating state of the Internal combustion engine or the unit and also depending Heat absorption of the consumer that the coolant / liquid Heat exchanger feedable heat exchanger medium preheating or can also experience a cooling down for pre or additional warming the cooling of the internal combustion engine.

The possibility of preheating is of particular interest sant if the heat demand of the consumer is higher than that Amount of heat generated by the coolant / liquid heat exchanger is available (claim 2).

This can he by a changeover valve according to claim 3 suffice that the optional connectivity of the air / liquid keits heat exchanger.

Depending on the energy balance of the consumer, when the Energy consumption by the consumer is low or the latter is saturated, the air / liquid heat exchanger as a cooler serve, both over the coolant / liquid Heat exchanger for the coolant in the coolant circuit Internal combustion engine. (Claims 4 to 7)

Within the scope of the invention, it is also possible to Include heat recovery in the cycle (claims 8 until 10).  

In claims 11 to 13, features are included that differ refer to an at least partial encapsulation of the unit, whereby both heat and noise protection measures are reachable and also enables a modular design is the prefabrication and easy assembly and maintenance light.

The invention is based on in the drawing illustrated preferred embodiments explained. It shows

Figure 1 shows a heat recovery circuit for a unit from an internal combustion engine and a generator coupled with this Kopel pelt in a schematic representation.

Figure 2 shows the heat recovery circuit in a modified form with additional heat recovery from the exhaust gas of the internal combustion engine.

Fig. 3 shows the unit in block design.

The heat recovery circuit, generally designated 1 , is connected to a merely indicated consumer 3, such as a heating device, a store (e.g. an underground store) or the like, and it has two pairs of parallel line sections 5, 5.1 and 6, 6.1 in succession in the flow direction 4 , at the first branch in the flow direction 4 of which an electrically controllable valve 7, 8 is arranged, each having two outputs 9, 9.1 or 11, 11.1 for optionally switching on the parallel line sections 5, 5.1, 6 and / or 6.1 . The parallel line section 5 leads to an air / liquid heat exchanger 12 which is exposed to an air flow indicated by the arrow 13 and generated by a preferably electrically driven fan 14 , which sweeps the internal combustion engine (not shown) and the generator (not shown).

The parallel line section 6 leads to a coolant / liquid heat exchanger 15 through which a coolant circuit line 16 of the internal combustion engine is passed for the purpose of heat exchange.

The parallel line sections 5 and 6, is assigned a andeu tung as illustrated safety valve or safety detector 17th

The associated parallel line sections 5, 5.1; 6, 6.1 are connected to each other again in the flow direction of secondary 4 branches 19, 20th A pump 21 is located in the heat recovery circuit 1 between the consumer 3 and the first valve 7 . The heat recovery circuit 1 is associated with an expansion vessel 22 , which is connected by a line section 23 in the present embodiment between the branch 20 and the consumer 3 to the heat recovery circuit 1 . The line section 23 is connected to a safety valve 24 . In the heat recovery circuit 1 are also manually operated check valves 25 are assigned between the line section 23 and the consumer 3 and before and after the pump 21 . For the connection to the consumer 3 , the air / liquid heat exchanger 12 and the cooling circuit of the internal combustion engine, connections 26 which are indicated are provided in the respective line sections. Such connections can also be provided in the parallel line section 6 , but in the present exemplary embodiment the coolant / liquid heat exchanger 15 is connected to the heat recovery circuit 1 without special connections as a structural unit.

To determine the respective temperature of the heat exchange medium flowing in the heat recovery circuit 1 , here a liquid, in particular the liquid leaving the coolant / liquid heat exchanger 15 and the temperature of the air / liquid heat exchanger 12 feasible liquid is in the flow direction upstream of the valve 7 and in the coolant / liquid heat exchanger 15 leaving parallel line section 6 each have a temperature sensor 27, 28 seen before, which are connected by signal lines to a not shown electrical control device, which is also connected by signal lines with the valves 7, 8 to controlling drives, here Electromagnets 29, 31 are connected.

The configuration according to the invention makes it possible either to include the heat absorbed by the air / liquid heat exchanger 12 and / or the heat absorbed by the coolant / liquid heat exchanger 15 in the heat recovery circuit 1 or to supply the consumer 3 . As a result, depending on the heat balance in the consumer 3 and / or in the coolant / liquid heat exchanger 15, the air / liquid heat exchanger 12 can be switched on or off and / or the coolant / liquid heat exchanger 15 from the heat recovery circuit 1 or from the consumer 3 and to achieve preheating or cooling of the coolant and thus the internal combustion engine.

In the context of the invention, it is possible to use instead of order switching valves 7, 8 in stages or steplessly controllable Ven tiles, so that even partial quantities of the respective current can be controlled or regulated. In the present preferred embodiment, the valve 8 controlling the parallel line sections 6, 6.1 is a control valve.

The embodiment of FIG. 2 differs from the above-described embodiment in that an exhaust gas heat recovery in the heat recovery circuit 1 is also included. The existing exhaust pipe 41 of the internal combustion engine is shown with two exhaust pipe sections 43, 44 starting from a branch 42 , each with a throttle valve 45, 46 in the pipe sections 43, 44 , which are adjustable by a drive motor 47 . A heat exchanger 51 is assigned to the one exhaust gas line section 44 in the exhaust gas flow direction 48 behind the throttle valve 46 and can be selectively connected to the heat recovery circuit 1 by means of a parallel line section. In the vorlie embodiment, the parallel line section 52 designated parallel to the parallel line sections 5 and 6 is arranged, ie the heat exchanger 51 is independent of the air / liquid heat exchanger 12 and / or coolant / liquid heat exchanger 15 with the heat recovery circuit 1 connectable. In this heat recovery circuit 1 of the Wärmerückge are in the flow direction 4 before and after the consumer 3 each represent a branch or manifold 53, used 54, wherein the heat exchanger 51 containing parallel line portion 52 parallel to the remaining portion winnungskreislaufs 1 to the manifolds 53, 54 is closed is. The parallel line section 52 is assigned its own pump 55 between the distributor 53 and the heat exchanger 51 , specifically with check valves 25 arranged upstream and downstream of the pump 55 . Like the air / liquid heat exchanger 12 , the heat exchanger 51 is also connected via special connections 26 in the parallel line section 52 .

In the exemplary embodiment according to FIG. 2, by switching on the parallel line section 52 , exhaust gas heat absorbed by the heat exchanger 51 can be absorbed into the heat recovery circuit 1 , it being supplied to the consumer when the latter needs heat. On the other hand, this exhaust gas heat can also be supplied to the coolant / liquid heat exchanger 15 for the purpose of giving off heat or preheating or to the air / liquid heat exchanger 12 for the purpose of giving off heat. One or two temperature meters 30 are assigned to the part of the parallel line section 52 leaving the heat exchanger 51 and / or the heat exchanger 51 and, according to the signals thereof, the parallel line section 52 is switched on by means of the pump 55 , preferably when the respective temperature reaches a predetermined value exceeds.

As can be clearly seen from Fig. 3, the combus tion machine 61 and a generator 62 are attached to a base frame 63 and they form with the remaining parts of the heat recovery circuit 1 a generally designated 64 unit or a block by a Detachably fastened tunnel wall 65, preferably made of heat and / or soundproof material, is covered with end openings 66, 67 . In the transverse direction of the tunnel 68 , the tunnel wall 65 insulates both the sound emitted by the structural unit 64 and the heat emitted. The fan 14 , not shown here, is preferably arranged in the tunnel 68 behind the combustion machine 61 and generates an air flow which is indicated by 69 . As indicated, the tunnel wall 65 can be divided into individual sections 65.1 . . . 65.4 be divided, the corresponding sections or modules of the unit 64 are each assigned, which greatly simplifies prefabrication, transport, assembly and maintenance.

Claims (13)

1. Unit ( 1 ) comprising an internal combustion engine ( 61 ) and a generator ( 62 ) coupled to it,
with a coolant circuit ( 16 ) of the internal combustion engine ( 61 ),
with a circulation device ( 14 ) for the forced circulation of air via the unit,
with an air / liquid heat exchanger ( 12 ) to recover the thermal energy of the air after heating by the unit ( 1 ) and
with a coolant / liquid heat exchanger ( 15 ) for recovering the thermal energy of the coolant after heating by the internal combustion engine ( 61 ),
wherein recovered thermal energy can be conducted to a consumer ( 3 ), characterized in that the air / liquid heat exchanger ( 12 ) optionally in series with the coolant / liquid heat exchanger ( 15 ) and in the direction of flow ( 4 ) of the liquid circuit ( 1 ) this is switchable and that a bypass (6.1) to the coolant / liquid heat exchanger (15) of the fluid outlet temperature of the coolant / liquid heat exchanger can flow dependent (28) (15). 2. Unit according to claim 1, characterized in that the air / liquid heat exchanger ( 12 ) can be switched on when the heat requirement of the consumer ( 3 ) in the liquid speed circuit ( 1 ) is higher than the amount of heat caused by the coolant / liquid Heat exchanger ( 15 ) is available. 3. Unit according to claim 2, characterized by a solenoid valve ( 7 ) in the liquid circuit ( 1 ), one outlet ( 9 ) with the liquid inlet of the air / liquid heat exchanger ( 12 ) and the other outlet ( 9.1 ) with the coolant / Liquid heat exchanger ( 15 ) is connectable and the first output ( 9 ) opens when the temperature falls below a predetermined value ( 27 ) at the input. 4. Unit according to one of claims 1 to 3, characterized by a solenoid valve ( 8 ) in the heat recovery circuit ( 1 ), one output ( 11 ) with the input of the coolant / liquid heat exchanger ( 15 ) and the other output ( 11.1 ) can be connected to the bypass ( 6.1 ). 5. Unit according to one of claims 1 to 4, characterized in that the air / liquid heat exchanger ( 12 ) can be switched on when the consumer ( 3 ) can no longer absorb thermal energy from the cooling medium / liquid heat exchanger ( 15 ). 6. Unit according to claim 3 to 5, characterized in that the solenoid valve ( 7 ) also opens the first output when the temperature ( 27 ) at the input exceeds a pregiven value. 7. Unit according to claim 3 to 5 or 6, characterized in that the solenoid valve ( 7 ) also opens the first outlet ( 9 ) when the temperature in the coolant circuit ( 16 ) after the coolant / liquid heat exchanger ( 15 ) exceeds a predetermined value of at least 90 ° C. 8. Unit according to one of claims 1 to 7, characterized by an exhaust and / or flue gas / liquid heat exchanger ( 51 ) parallel to the coolant / liquid heat exchanger ( 15 ). 9. Unit according to claim 8, characterized in that the exhaust and / or flue gas / liquid heat exchanger ( 51 ) is also arranged parallel to the air / liquid heat exchanger ( 12 ). 10. Unit according to claim 8 or 9, characterized in that the exhaust and / or flue gas / liquid heat exchanger shear ( 51 ) containing parallel line section ( 52 ) is assigned a separate circulation pump ( 55 ). 11. Unit according to one of claims 1 to 10, characterized in that the unit ( 1 ) including the heat exchanger ( 12, 15, 51 ) and the circulating device ( 14 ) surrounded by a heat and / or soundproofing panel ( 65 ) a passage ( 68 ) for the air is kept clear. 12. Unit according to claim 11, characterized in that the covering ( 65 ) has the shape of a tunnel. 13. Unit according to claim 11, characterized in that the covering ( 65 ) is at least partially detachably held.