DE102010040014A1 - Device for changing an ambient temperature for mobile applications and corresponding method - Google Patents

Abstract

The invention relates to a method and a device for changing the ambient temperature for mobile applications, in particular in an interior of electric vehicles. It comprises a device for changing the ambient temperature for mobile applications, in particular in an interior of electric vehicles, comprising a heat store for reversibly storing and dispensing a fluid heat storage medium, at least one heat exchange means for introducing and removing thermal energy from the fluid heat storage medium, charging means for charging the heat store, storage means for storing the heat storage medium in the heat store, and heat dissipation means, the device being passively operable at least temporarily during a mobile application. The invention also relates to a motor vehicle with a device for changing the ambient temperature.

Description

The invention relates to a device and a method for changing an ambient temperature for mobile applications, in particular in an interior of an electric vehicle.

Devices for influencing an ambient temperature are used, for example, in motor vehicles with internal combustion engines in the form of air conditioning systems. These air conditioners are driven by the internal combustion engine, for example by means of a toothed belt during operation of the internal combustion engine. A compressor draws in refrigerant vapor and compresses it. In a downstream heat exchanger, the refrigerant condenses. The liquid refrigerant is then released. During this expansion or expansion of the refrigerant, the refrigerant pressure decreases, the refrigerant cools and partially evaporates. In a second heat exchanger, the refrigerant absorbs the supplied heat from the interior of the vehicle by evaporation. The compressor sucks in the vaporized refrigerant and compresses it again. In order to heat the interior of the vehicle in cold outside temperatures, usually the waste heat of the internal combustion engine is used by the air from the interior of the vehicle is acted upon by means of a heat exchanger with the waste heat of the internal combustion engine.

In electric vehicles, however, eliminates the possibility of using the waste heat of the electric motor, since this generates only very small amounts of heat, and these are not sufficient, especially in winter, to ensure an acceptable temperature level in the interior of the electric vehicle. At the same time a use of a conventional compression unit is disadvantageous due to the necessary power. Electric vehicles have a significantly lower range compared to vehicles with internal combustion engine due to the current possible ratio of battery capacity and weight of the battery. A compressor reduces this already lower range even further.

An object of the present invention is therefore to provide a device for changing the ambient temperature for mobile applications, which is simple and inexpensive to manufacture, takes up little space, allows easy maintenance and has low energy consumption.

This object is achieved by a device for changing the ambient temperature for mobile applications, in particular in an interior of an electric vehicle, comprising a heat storage for reversibly storing and dispensing a fluid heat storage medium, at least one heat exchange means for introducing and removing heat energy of the fluid heat storage medium, charging means for Loading the heat accumulator, storage means for storing the heat storage medium in the heat accumulator and heat dissipation means, wherein the device is at least temporarily passively, operable during a mobile application.

The object is likewise achieved by a method for changing the ambient temperature for mobile applications, in particular in an interior of electric vehicles, preferably suitable for implementation with a device according to at least one of claims 1 to 7, comprising the steps:
Storing a fluid heat storage medium in a reversibly formed heat storage,
Dispensing a fluid heat storage medium stored in the heat accumulator,
Receiving heat energy through the heat storage medium, outputting heat energy of the heat storage medium and / or the storage medium, wherein at least the recording and / or release of heat energy is at least temporarily passive during a mobile application.

Thus, in both heating and cooling of an interior of an electric vehicle while driving, that is, during a mobile application, no power from the battery of the electric vehicle is required, so that the range of the electric vehicle remains sufficiently high. At the same time the maintenance is substantially simplified by the elimination of the compressor, since the number of moving parts for heating and / or cooling of the vehicle interior is reduced.

Conveniently, at least one aggregate state converter for changing a state of aggregation of the heat storage medium is arranged. The advantage achieved thereby is that condensation heat from the heat storage medium can thus be used in a simple manner, so that additional chemical processes for utilizing or releasing the heat energy contained in the heat storage medium, for example by means of an exothermic reaction, can be dispensed with. Therefore, this not only allows a simple heat energy supply or withdrawal from the heat storage medium, but this / r is also feasible at low cost.

Advantageously, control means are provided which are designed to control at least the charging means. This makes it possible to control the charging means in an optimal manner or to charge the heat storage, so that this For example, in the shortest possible time and / or can be recharged with the least possible energy consumption.

The control means expediently comprise a communication interface for exchanging data with an external charging device. Thus, the heat storage can be charged in even shorter time or under / or minimal energy consumption. At the same time data can be exchanged by means of the communication interface, which reproduces both the state of charge of the heat accumulator and the state of charge of an external energy store which is to be charged by the external charging device. If, for example, the energy store to be charged by the external charging device is an accumulator for driving the electric vehicle, it is usually charged in cycles, or according to a corresponding charging scheme. Charging pauses in the charging scheme of the external energy storage can then be used to charge the heat accumulator during this period. Overall, the electric vehicle is thus available again for mobile use after as short a time as possible.

Advantageously, the charging means comprise a heater. In this way, the heat storage can be recharged easily and quickly.

Conveniently, the heat storage is designed as a thermochemical heat storage, in particular as Adsorptionsspeicher. The advantage here is that on the one hand, the number of necessary moving parts is further reduced and on the other hand, this type of memory has a high storage density. Furthermore, the stored energy can be stored lossless over longer periods, especially weeks or months.

Advantageously, the storage means comprise zeolite and the heat storage medium water. The advantage achieved here is that on the one hand zeolites have a large inner surface and thus a high storage capacity. At the same time zeolites allow the storage of water as a heat storage medium, which is easy and extremely inexpensive at any time in large quantities available.

Other features and advantages of the invention will become apparent from the following description of an embodiment with reference to the 1a to 1c ,

Show 1a to 1c a schematic representation of a change in the ambient temperature by means of a device according to an embodiment of the present invention;

In 1a is a combined heating and cooling module 1 shown. The heating and cooling module 1 includes a heat storage 2 , which zeolite as storage means 8th having. Furthermore, at the heat storage 2 heating 3 provided for charging the heat accumulator 2 serve. These heating means 3 are with control means or a controller 20 connected. The control means control this 20 the heating means 3 , The control means 20 continue to have a communication interface 21 on top of that with an external charging device L, which also has a corresponding communication interface 22 has, interacts to exchange data. The external charging device L is connected to an energy store E of an electric vehicle and serves to charge the energy store E, for example, when the electric vehicle is connected to a power outlet.

The heat storage 2 is over a line 7 Fluidic in conjunction with a condenser / evaporator 6 , In the condenser / evaporator 6 There is a certain amount of water 5 in the liquid state and a certain amount of water in gaseous state as water vapor 5a , Now, to heat a vehicle interior F of the electric vehicle becomes heat energy 9 the condenser / evaporator 6 supplied from the environment (step S ₃₁ ). At least a part of the liquid water evaporates 5 to steam 5a , The water vapor 5a will then be over the line 7 the heat storage 2 fed. The storage material or storage means 8th in the form of zeolite adsorbs the water vapor 5a in the form of water 5 (Step S ₁ ). The condensation heat generated by the adsorption 4 in the heat storage 2 is by means of a conventional heat exchanger 11 the vehicle interior F supplied (step S ₃₂ ).

Is this in the evaporator / condenser 6 contained liquid water 5 completely to steam 5a evaporates or may the storage medium or zeolite 8th no more water vapor 5a adsorb more, the heat storage needs 2 according to 1b be recharged. To the heat storage 2 to recharge, are now using the control means 20 the heating means 3 actuated by this electrical energy 3a is supplied. Charging takes place in an electric vehicle either at a stationary charging station or by solar cells of the electric vehicle, if they are not or only partially required for charging the energy storage of the electric vehicle. By the heating means 3 now becomes the heat storage 2 heated (step S ₃₁ ), that is through the zeolite 8th adsorbed water is thereby evaporated and flows over the line 7 in the condenser / evaporator 6 (Step S ₂ ). There the water vapor condenses 5a to liquid water 5 , The resulting condensation heat 9a can then be discharged to the environment or used for at least partial energy recovery (step S ₃₂ ). For example, the environment of the electric vehicle can be temporarily heated in this way.

The cooling of the interior F according to 1c now takes place in the reverse manner. This is heat energy 4a from the interior F the evaporator / condenser 6 for example by means of a conventional heat exchanger 11 the heat storage medium 5 supplied in the form of water (step S ₃₁ ). A part of the liquid water 5 becomes water vapor 5a evaporates and gets over the line 7 the heat storage 2 fed. By the adsorption of the water vapor 5a through the zeolite 8th heat of adsorption arises 10a which is discharged to the environment (step S ₃₂ ). In this way, total heat is removed from the vehicle interior F and the temperature drops.

Although the present invention has been described above with reference to preferred embodiments, it is not limited thereto, but modifiable in many ways.

Claims (10)

Contraption ( 1 ) for changing the ambient temperature for mobile applications, in particular in an interior (F) of an electric vehicle, with (a) a heat storage ( 2 ) for reversibly storing and dispensing a fluid heat storage medium ( 5 . 5a ); (b) at least one heat exchange agent ( 6 ) for introducing and removing thermal energy of the fluid heat storage medium ( 5 . 5a ); (c) Charging means ( 3 ) for charging the heat accumulator ( 2 ), (d) storage means ( 8th ) for storing the heat storage medium ( 5 . 5a ) in the heat storage ( 2 ), and with (e) heat sinks ( 11 ), the device ( 1 ) is at least temporarily passively operable during a mobile application. Apparatus according to claim 1, wherein the heat exchange means ( 6 ) at least one aggregate state converter for changing a state of aggregation of the heat storage medium ( 5 . 5a ). Device according to at least one of claims 1-2, wherein a control means ( 20 ) provided for controlling at least the charging means ( 3 ) is trained. Device according to claim 3, wherein the control means ( 20 ) a communication interface ( 21 ) for exchanging data with an external charging device (L). Device according to at least one of claims 1-4, wherein the charging means ( 3 ) are electrically operable and / or include a heater. Device according to at least one of claims 1-5, wherein the heat storage ( 2 ) is designed as a thermochemical heat storage, in particular as Adsorptionsspeicher. Device according to at least one of claims 1-6, wherein the storage means ( 8th ) Zeolite and the heat storage medium ( 2 ) Water ( 5 . 5a ). Motor vehicle, in particular electric vehicle, with a device ( 1 ) according to at least one of claims 1-7, an energy store (E) for the provision of energy and with a charging device (L) for charging the energy store (E), wherein the charging device (L) and the device ( 1 ), preferably the control means ( 20 ) of the device ( 1 ), is formed such that the heat storage ( 2 ) and the energy store (E) are at least partially rechargeable at the same time. Method for changing the ambient temperature for mobile applications, in particular in an interior (F) of an electric vehicle, preferably for implementation with a device ( 1 ) according to at least one of claims 1-7, comprising the steps of: storing (S ₁ ) a fluid heat storage medium ( 5 . 5a ) in a reversibly formed heat storage ( 2 ); Dispensing (S ₂ ) one in the heat storage ( 2 ) stored fluid heat storage medium ( 5 . 5a ); Picking up (S ₃₁ ) heat energy ( 4 . 4a ) through the heat storage medium ( 5 . 5a ); Discharging (S ₃₂ ) heat energy of the heat storage medium ( 5 . 5a ) and / or the storage medium ( 8th ); at least picking up (S ₃₁ ) heat energy ( 4 . 4a ) and / or the release (S ₃₂ ) of thermal energy, at least temporarily passively, during a mobile use of the device ( 1 ) he follows. Use of a device ( 1 ) according to at least one of claims 1-7 for a change of an ambient temperature in one Interior (F) of a motor vehicle, in particular according to claim 8.

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