DE102015207970A1 - "Method for tempering a technical component of a machinery and control device of a machinery" - Google Patents

Abstract

The invention relates to a method for tempering technical components (25) of a machinery (28) which comprises an energy converter (13), in particular an internal combustion engine, in which a liquid (12) is separated from a product (11) of the energy converter (13) , The temperature of the technical component is realized by means of a heat transfer directly between the technical component (25) and the separated liquid (12).

Description

The invention relates to a method for controlling the temperature of a technical component of a machinery having the features according to the preamble of claim 1. Furthermore, the invention relates to a control device of a machinery according to the preamble of claim 10.

A variety of processes and processes in today's machinery with technical components are realized by means of or by liquids. These liquids are used, for example as operating materials, within these processes and processes for very different purposes, such as specifically the cooling or cleaning. With fixed machinery, these fluids can usually be readily deployed for continued operation. By contrast, in the case of mobile machinery which comprises one or more energy converters, in particular internal combustion engines, preferably in a motor vehicle, it is necessary to regularly replenish the reservoir for the fluid in order to carry out liquid-intensive processes.

In order to avoid a temperature rising above a prescribed limit, technical components of machinery are usually cooled by air or a cooling liquid in a cooling circuit. In internal combustion engines, the technical components engine or turbocharger examples for which the procedure described is necessary.

When tempering a technical component by means of a cooling circuit with a liquid cooling medium, such as water, the technical components must be equipped with a cooling medium connection, provide a certain temperature level and have a sufficiently large contact surface, so that the cooling power can be dissipated. In order not to have to cool down technical components, some technical components are designed to be temperature-resistant enough to withstand elevated temperatures without damage.

In the context of internal combustion engines in motor vehicles, a number of methods are already known in which water is used as liquid and is obtained during the drive of the motor vehicle from the exhaust gas of the internal combustion engine. At this point should be mentioned as an example:
According to the document DE 3102088 A1 For example, a method is known in which condensation of the exhaust gases takes place for generating water for a water injection system of an internal combustion engine. Furthermore, the document shows DE 10026695 C1 a method and apparatus for recovering water from exhaust gas to produce a sufficient amount of water for the water injection system. In addition, according to the document WO 02059043 A2 a method and an apparatus for on-board recovery and purification of water is known, consisting of a device for cooling the exhaust gas, such as a refrigerator, a condenser and a water purification system. The cleaning is based on a solid filter, an activated carbon filter and an ion exchanger.

The general temperature control of technical components of machinery is based on the state of the art with relatively high costs and production costs, as well as maintenance, care and refill intervals. Furthermore, a reservoir for a liquid requires a certain space, which, especially in a mobile machinery, is scarce, so that difficulties arise to accommodate a memory for the technical component.

Object of the present invention, it is against this background, to achieve a temperature of a technical component with little effort for the cooling components.

This object is achieved by a method for controlling the temperature of a technical component having the features of claim 1. Advantageous developments of the invention are characterized in the dependent claims.

In the method according to the invention for controlling the temperature of a technical component of a machinery which comprises one or more energy converters, in particular an internal combustion engine, preferably in a motor vehicle, a liquid, preferably water, is separated from a product, preferably exhaust gas, of the internal combustion engine. The temperature control of the technical component take place by means of a heat transfer between the technical component and the separated liquid. There is a heat transfer directly between the technical component and the liquid.

According to the term of tempering, a cooling and / or heating and / or a holding of the temperature is described.

The technical component may be a component of the machinery, in particular of the energy converter of the machinery.

An energy converter of a machinery exchanges two forms of energy. Certain embodiments of energy converters convert chemical into mechanical and / or electrical in mechanical and / or chemical in electrical energy. According to the invention include internal combustion engines and / or fuel cells.

For tempering the technical component, a liquid from the product of the energy converter, in particular from the exhaust gas of an internal combustion engine or from the reaction products of a fuel cell, in particular during operation, deposited. This can be realized by means of a separation process (thermal and / or mechanical and / or chemical) in the sense of process engineering, which utilizes at least one mass ratio, at least one phase transition, and / or at least one substance size. This may include exhaust gas condensation, centrifugation, sublimation, rectification (distillation) and filtration. The liquid is preferably purified in an intermediate step before being directed to a site of use.

The machinery of the present invention may be a mobile or stationary machine in specific embodiments. It may consist of complex co-operating technical components of one or more co-operating machines, in particular it may comprise mechanical and electronic components. These include, for example, a drive train, an aggregate, various power electronics, a battery and and electrical and / or mechanical parts of the power transmission of a machine. The power transmission includes shafts, gears and couplings, but also electrical lines.

Aggregates describe the connection of one or more power machines with one or more work machines including the required power splits. These engines can be designed both as internal combustion engine in the sense of an internal combustion engine and / or as an electric motor and further optionally form a hybrid drive.

The separated liquid can be transported to a site where the technical component is tempered by a controlled conduit.

In order to achieve a simplification of the cooling system, in particularly preferred embodiments, the separated and conducted to the site liquid is applied externally by spraying or sprinkling on the technical component, so as to realize a cost-effective and structurally lightweight solution.

The temperature control of the technical component can take place by utilizing heat transfer by means of heat conduction, convection and radiation, which take place separately from one another and / or simultaneously and / or at different locations. The heat transfer can temporally constant or variable, ie stationary or transient, take place, whereby the temperature of the technical component is maintained or changed. This allows the realization of many different system situations. Such situations arise due to different types of dynamically shaped heating situations over time, caused by a different power consumption of the output. The factor for the heat transfer thereby forms the heat transfer coefficient, which is higher in a liquid than in a gas and thus a higher heat transfer is achieved.

If the liquid is applied externally to a technical component and the saturation vapor pressure is undershot, the effect of evaporative cooling may occur whereby heat is removed from the air and / or water and the liquid becomes cooler. Taking advantage of the boiling can in the case of an excessively hot technical component in which the temperature is above the boiling point of the liquid, the applied liquid temper the technical component. These effects are desired in the context of embodiments of the invention, since a pronounced cooling performance can be realized.

With the temperature of a technical component in this context is not the cooling of a fluid, as in the water cooling of a combustion processes in a combustion chamber of an internal combustion engine meant. It is tempered primarily a solid technical component, not a fluid, in particular a gaseous. According to the invention, the process of tempering takes place substantially more time-constant than in the case of explosive evaporation of water cooling in a combustion chamber.

By the external application of the tempered liquid to a technical component, according to the inventive concept, technical components can additionally be cleaned and / or an undesired materiality can be separated off. An example is the deicing of the windshield of a motor vehicle. However, a temperature control of the technical component during cleaning does not always take place.

In the context of the inventive idea is also a control device for a machine. The control unit is assigned to the machinery. It is in operative connection with the machinery and / or signal connection. The control device according to the invention comprises a computer and a memory element in which a program is stored, which, in the case of partial execution in the computer, carries out the steps of the method for tempering a technical component with steps or combinations of steps as described in this specification.

According to specific embodiments of the method, a controller or a control can be realized in the control unit.

Control or rules is used to automate the tempering. In this case, dynamic variables are to be measured and / or controlled and / or regulated in order to achieve the required tempering effect. Dynamic variables may be, for example: an operating state of the internal combustion engine, pressures of the line system and the application device, a deposition rate from the exhaust gas, an existing amount of liquid, a required Temperierungsleitung, temperature of the liquid, and the flow rate of the line and the required temperature level of the technical component.

At temperatures below the freezing point, so that there is a risk of solidification of the liquid and / or there is a general lack of heat to perform certain processes, and / or there is increased friction, the temperature can be controlled by the condensation of the product , in particular the exhaust gas, still warm or reheated liquid to be made.

A temperature control of the liquid can be realized in a line arrangement for conducting the liquid to its place of use. In an advantageous further development of the method according to the invention, a heat exchanger and / or a heating element and / or a cooler, which is integrated in the power arrangement, is used to regulate the liquid to a temperature predetermined by the control unit.

The temperature of the technical component can in advantageous embodiments of the method according to the invention even when switched off or stationary energy converter, especially when the engine is switched off or standstatten go, by a buffer is integrated in the line arrangement, so that a buffer is present, if no liquid from the exhaust gas Internal combustion engine is recovered. This memory can be relatively small due to the liquid recovery during operation, so that a weight saving compared to refillable storage is possible.

The liquid which is separated from the product of the energy converter, in particular in the case of an internal combustion engine from the exhaust gas and in the case of a fuel cell from the reaction products, comprises water. In internal combustion engines, the water is present as water vapor in the exhaust gas. On the one hand, water is produced by burning the fuel with oxygen. On the other hand, in a large number of embodiments with internal combustion engines, a high proportion of water in the exhaust gas may be present due to water injection into the intake air of the engine or directly into a combustion chamber of the engine.

Furthermore, an internal combustion engine, preferably a vehicle, in particular a trackless land vehicle, such as a passenger car or a commercial vehicle, is also associated with the inventive idea.

The features illustrated in this description can be implemented individually or in combination, be it all features or only a subset of the set of all features, in a method according to the invention and / or a control unit according to the invention and / or an internal combustion engine according to the invention.

Further advantages and advantageous embodiments and developments of the invention will be described with reference to the following description with reference to the figures. It shows in detail:

1 a flow diagram of a particularly preferred embodiment of the method according to the invention for controlling the temperature of at least one technical component, and

2 a topology of an embodiment of an internal combustion engine with condensation device and spray device

In the further course, without restriction of the more general idea of the invention in a preferred embodiment, an internal combustion engine as an energy converter will be discussed, and preferably the product of the energy converter is an exhaust gas of the internal combustion engine.

In the 1 is a flow diagram of a particularly preferred embodiment of the method according to the invention for controlling the temperature of a technical component of machinery, which includes an internal combustion engine in which separated from an exhaust gas of the engine water as a liquid and used for temperature control of a technical component.

step 1 is the passing of the exhaust gas from the internal combustion engine through any downstream catalysts towards an exhaust gas condenser. There will be in step 2 Water from the water vapor contained in the exhaust condenses, collected and in the step 3 by an activated carbon and solid filter - as for example in the document WO 02059043 A2 is described - cleaned. After that, in step 4 a system pressure built by a pump. In step 5 the water is cached in a memory to bridge any bottlenecks. This step 5 is bypassed if the memory is filled. In step 6 the liquid is controlled temperature controlled to achieve a certain temperature control performance of the technical component. This step 6 is bypassed if a temperature of the water is not necessary. In step 7 the water is directed via a pressure line system to the different technical components. step 8th is the application of water by spraying or sprinkling the technical component. In step 9 the water and the surrounding air are cooled by heat of evaporation. Due to the different temperature level of the technical component and the water takes place in step 10 a heat transfer instead. In this case, thermal energy is transported from the water to the technical component or from the technical component to the water and the technical component is finally tempered.

The 2 shows a topology of an embodiment of a machinery for which the temperature control method according to the invention can be carried out. The machinery includes an energy converter 13 , here an internal combustion engine, an exhaust gas condenser 14 - as he, for example, in detail in the document DE 10026695 C1 is described - and a spray device 13 , The exhaust 11 is via an exhaust system 15 ejected from the internal combustion engine, and a liquid 12 , here concrete water, is in the exhaust gas condenser 14 deposited while the remaining exhaust 11 via an exhaust system 16 is dissipated. For the purification of the recovered water, the device has a cleaning system 17 and a pump 18 to build up pressure. A store 19 is in the line layout, but before the line branching 20 , if necessary, to bridge bottlenecks. The power split 20 has in this advantageous embodiment in each strand 21 a controllable throttle 23 for controlling the volume flows. Because only one strand 21 a temperature controller 22 can, the water can 12 also without tempering step (see above step 6 ) to get redirected. By means of a spraying device 24 becomes the liquid 12 on the technical component 25 aufbracht. A control unit 26 with connected outside temperature sensor 27 regulates the water spray amount of the spray device 23 on the technical component 25 according to the different operating behavior of the technical component 25 and the thereby on the technical component 25 acting outside temperature. In this case, both the condensation amount in the exhaust gas condenser 14 as well as the pressure of the system via the pump 18 , the capacity of the memory 19 , the temperature control of the water through the temperature controller 22 and the degree of mixing after the branching 20 over the throttles 22 controlled. In a further embodiment according to the invention, further, not shown, temperature sensors may be present. Preferably at the temperature controller, for detecting the actual temperature and / or at the technical component to detect the exceeding of upper temperature limits or to regulate a target temperature.

LIST OF REFERENCE NUMBERS

11

exhaust

12

liquid

13

energy converters

14

flue gas condenser

15

exhaust gas line

16

exhaust system

17

purifier

18

pump

19

Storage

20

manifold

21

strand

22

thermostat

23

throttle

24

sprayer

25

technical component

26

control unit

27

Outside temperature sensor

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 3102088 A1 [0005]
• DE 10026695 C1 [0005, 0037]
• WO 02059043 A2 [0005, 0036]

Claims (10)

Method for tempering a technical component ( 25 ) of a machinery ( 28 ), which is an energy converter ( 13 ), in which from a product of the energy converter ( 13 ) a liquid ( 12 ) is deposited, characterized in that the technical component is tempered, wherein a heat transfer directly between the technical component ( 25 ) and the liquid ( 12 ) takes place. Method for tempering a technical component ( 25 ) of a machinery ( 28 ) according to claim 1, characterized in that the separated liquid ( 12 ) to a site where the technical component ( 25 ) is controlled by a controlled line ( 29 ) is transported. Method for tempering a technical component ( 25 ) of a machinery ( 28 ) according to claim 1 or 2, characterized in that at specified temperatures, heating by means of the still after deposition warm or reheated liquid ( 12 ) of the technical components ( 25 ) is carried out. Method for tempering a technical component ( 25 ) of a machinery ( 28 ) according to any one of the preceding claims, characterized in that the separated liquid ( 12 ) is tempered before the technical component ( 25 ) with the liquid ( 12 ) is heated to a certain temperature of the liquid ( 12 ) to reach. Method for tempering a technical component ( 25 ) of a machinery ( 25 ) according to one of the preceding claims, characterized in that the liquid is separated by means of a separation process which utilizes at least one mass ratio, at least one phase transition, and / or at least one substance size. Method for tempering a technical component ( 25 ) of a machinery according to any one of the preceding claims, characterized in that the heat transfer by convection and / or heat conduction and / or radiation takes place and / or the heat transfer has a plurality of individual heat transfer processes, which are separated from each other and / or at the same and / or expire in different places. Method for tempering a technical component ( 25 ) of a machinery according to one of the preceding claims, characterized in that the technical component by means of the liquid ( 12 ) and / or undesired materiality of the technical component ( 25 ) is separated. Method for tempering a technical component ( 25 ) of a machinery ( 28 ) according to one of the preceding claims, characterized in that the temperature of the technical component is substantially kept or changed by the heat transfer, which is constant in time or variable. Method for tempering a technical component ( 25 ) of a machinery ( 28 ) according to one of the preceding claims, characterized in that the liquid is externally applied to a surface of the technical component ( 25 ) for a cooling effect of the liquid ( 12 ) to the technical component ( 25 ) is applied by a required heat of vaporization. Control unit ( 26 ) of a machinery, the control device ( 26 ) comprises at least one computer and a memory element, characterized in that in the memory element a program is stored, which in at least partial execution in the computer the steps of the method for controlling the temperature of a technical component ( 25 ) according to one of the preceding claims.

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