RU2174475C2 - Thermoelectric liquid-type generator for generation of cold or heat - Google Patents

Abstract

FIELD: refrigerating engineering; thermoelectric refrigerating equipment. SUBSTANCE: generator includes housing and alternating "hot" and "cold" heat exchangers 1, 2, 3, 4 and 5 with thermoelectric batteries 10 located between them and connected to DC source. Heat exchangers are made from profile having passages for flow of liquid, bushes 6 and 7 fitted over edges of passages are used for supply and discharge of liquid; tightness is ensured by means of rubber ring 8. Heat exchangers are provided with holes and strips for direct contact of liquid with surfaces of thermal batteries; strips are just walls of profile passages coated with sealant for protecting thermoelectric batteries against liquid. Hermetic housing is filled with dry air. EFFECT: enhanced efficiency and reliability. 3 cl, 3 dwg

Description

 The invention relates to refrigeration, in particular to air conditioning and refrigeration-freezing thermoelectric equipment, used, for example, in passenger rail transport and in agricultural production.

 Known thermoelectric generators of cold or heat used in devices for air conditioning in vehicles, containing a heat exchanger (water, evaporative, etc.), radiation-convective panels of various types, shapes and purposes, including a constant current source, closed circuits of the circulating coolant in the form filtering and heat-removing liquid systems, diagnostic and control systems, a number of other auxiliary devices, such as valves, pumps, etc., examined and analyzed ized as analogues and the prototype for domestic inventors' certificates (AS), foreign patents and publications.

 Thermoelectric cold or heat generators mounted in the vehicle air conditioning unit (AS USSR N 688351) have filter ventilation and heat dissipating liquid systems, are connected to radiation-convection panels directed by radiation surfaces to the vehicle driver’s area, are connected to a direct current source. In A.S. USSR 1572839 describes thermoelectric block-modular generators of cold or heat of an air conditioning installation, containing radiation and convective heat exchange systems, a heat exchanger of hot junctions, ducts and conductive heat exchangers of thermoelectric generators of cold or heat, the generators being made of radiation and convection parts. Thermoelectric batteries of the radiation part are made with water removal of heat from their hot junctions, and convective thermopile - with air, and connected with conductive heat exchangers. In a thermoelectric device according to A.S. USSR N 1010413 to create a microclimate in a vehicle, the efficiency of the device is increased due to the content of a closed water circuit located between the cold and hot junctions of the thermoelectric generator, as well as a controller with a rotary shaft. In an installation for air conditioning (AS USSR N 1034931) to increase energy and hygienic efficiency, as well as reliability by leveling the temperature field of radiation-convective panels in the direction from the input collector to the output, the tubes of the panels are installed in different design - tapering, increasing along the length of the collector, which allows to equalize the thermal load of the thermoelectric generator, to reduce the gradient of the temperature field of the panels. There are a number of thermoelectric generator devices in air-conditioning installations in which, in some cases, complex evaporative units are used to increase the microclimate efficiency, including a liquid tank with a porous baffle with a coolant circuit, and in others, vacuum pumps, convective heat exchangers, consisting of two planes, one of which is connected with an air-liquid radiator, and the other through a tank with a suction cavity of a vacuum pump (AS USSR N 1250483). In A.S. USSR N 1438972 thermoelectric generator of cold or heat of the vehicle air conditioning installation includes a system for removing heat from the hot junctions of the generator, including a convective heat exchanger and a radiation panel, which serves to increase the efficiency of the installation; the latter is made of separate movable elements separately connected to the pump through solenoid valves.

 All of the above devices of thermoelectric generators of cold or heat of air conditioning units, created in the USSR in the 70-80s, have a number of significant drawbacks, the main of which are: low energy efficiency; large cold losses leading to increased costs for air conditioning, and thereby leading to an increase in the size of the air conditioner; the lack of uniformity of the temperature field and the occurrence of supercooled or superheated sections on the radiation surface that impair the operation of the thermoelectric generator, reducing its refrigeration coefficient; failure of the thermal generator due to overheating of hot junctions of thermal batteries in hot climates or in plants with elevated temperature conditions; forced disconnection of heat generators from a source of electricity, which leads to increased heat loss between cold and hot junctions, and a number of others.

 In recent years, Russia has created devices for thermoelectric generators of cold or heat in air conditioning plants, in particular, in applications for inventions N 96113822/11 of 07/09/96, N 97110998/28 of 06/27/97, which received positive solutions, schematic design solutions of some thermoelectric generators of cold or heat are given.

 Abroad also developed a number of designs of thermoelectric generators of cold or heat, heating and cooling units, as well as individual devices for drying air (US Pat. US NN 4499736, 4506510). It is interesting to use thermoelectric heat pumps mounted on a wall or ceiling for heating or creating a microclimate in rooms in which there are no moving parts, and heat exchange is carried out by natural convection (US Pat. No. 4,492,086). A similar heating and cooling device has been developed for automobiles (US Pat. No. 4,280,330), which operates on a separate battery and can operate without the engine turned on. Other conventional countercurrent systems are also used (U.S. Pat. No. 4,463,569). A device is known in which between two cylindrical rotors similar to a centrifugal fan, thermopiles are placed rotated with rotors as a single hollow unit filled with liquid; thus, the creation of cooled and heated air flows is achieved (US Pat. US N 3599437). In powerful liquid-air heating and cooling devices, the main attention is paid to improving the heat exchange system, designs of heat exchangers and methods for their manufacture. Used extruded heat exchangers of complex configuration (US Pat. US N 4472945); needle or plate heat exchangers made from one solid billet (US Pat. US N 4297849); developed heat exchangers made of porous material, in which there are channels for transporting condensed liquid, and the isothermal system is achieved by using evaporation and condensation of a substance filling the heat exchangers. Such systems can be used for naturally convective heat transfer (US Pat. US N 4448028). US Pat. No. 4,350,016 describes a device and method for cooling with a direct current thermoelectric element, in which heat transferred to the hot side is dissipated by an external heat exchanger cooled by water, as well as by interaction with the external environment.

 Of the considered domestic and foreign analogues, the closest analogue, the prototype, to the claimed technical solution includes the development of a thermoelectric system of medium (power from 1 to 10 kW) and high power (10 kW or more), consisting of several subunits used for cooling and heating air the car according to the scheme "liquid-liquid" (water-water) by cooling the water circulating in thermoelectric generators, reported by JG Stocholm, P.M. Schlicklin at the First European Conference on Thermoelectricity in Cardiff in 1987, in their paper, Industrial Thermoelectric Cooling and Generation of Electricity between 200 K and 500 K (See IEE materials 1st European Conference on Thermoelectrics, Cardiff, pp 235-263 / Printed in England by short Run Press Ltd., Exeter. "Industrial thermoelectric cooling and electricity generation between 200 K and 500 K").

 The thermoelectric generator, named by the authors of the report as a “subunit”, can be configured for special applications using standard components and special heat exchangers. The standard subunit PE 925, operating according to the "water - water" scheme, has a pipe system with an inner diameter of 17 mm and a weight of 50 kg. Medium-sized systems have several subunits, while large systems consist of a large number of subunits (10 or more), are grouped into sections that are connected to a closed fluid flow in a parallel circuit. Their electrical circuits allow you to get a working voltage of several hundred volts. The subunits made according to the "water - water" scheme are inserted into sections similar to drawers. The layout of the fluid flow pattern between the subunits depends on the water flow rate and the required temperature difference between the inlet and outlet openings of each circuit. The cold water circuit consists of two circuits connected in parallel, can have five subunits connected in series. Along with the well-known advantages of a liquid-liquid thermoelectric system, such as operational reliability, high mean time between failures, low thermal energy, noiselessness and safety, which does not have moving parts except for pumps, and the absence of compression fluids, such as freons allowing, with significant excesses of the operating voltage, to double the nominal capacity by 30-50%, or increase the efficiency with a decrease in cooling capacity below 50% of the nominal value compared to However, with compression systems, in which the efficiency, on the contrary, decreases, the thermoelectric system proposed by the authors of the report also has drawbacks: large mass and size parameters of both each subunit and the system as a whole, the complexity of the design, low-tech connections and a number of others, which limits the application of these powerful and very bulky thermoelectric cold generators in refrigeration and air conditioning systems.

 The proposed invention is aimed at eliminating the above disadvantages of known thermoelectric generators of cold or heat, namely, to obtain high energy, hygienic and environmental efficiency, as well as the reliability of the generators through the use of a thermoelectric system operating according to the "liquid-liquid" scheme with any quantity heat exchangers in blocks; thermopiles, which allow efficient cooling of thermopiles, including water directly flowing along external surfaces, ensuring reliable sealing of the entire system.

The essence of the solution of the problem according to the invention lies in the fact that in a thermoelectric liquid generator of cold and heat containing a housing, alternating "hot" and "cold" heat exchangers with channels for the passage of liquid with thermoelectric batteries placed between them connected to a constant current source, heat exchangers made in the form of:
- a profile with channels for the passage of fluid, at the edges of which bushings are installed for supplying and discharging fluid, providing sealing of the fluid path through a sealing, mainly rubber, ring, and the generator housing is sealed and filled with dry air;
- a profile with openings for direct contact of the liquid with the outer surfaces of the thermopiles and jumpers, which are the walls of the channels of the profile, on which adhesive sealant is applied to seal the liquid path.

Significant differences of the proposed thermoelectric liquid generator of cold or heat are:
- the implementation of its heat exchangers from the profile with channels for the passage of fluid with bushings that provide sealing of the entire fluid path of the generator;
- execution of a profile of heat exchangers with openings for direct contact of the liquid with the outer surfaces of the thermopiles, which allows for more efficient heat removal;
- elimination of condensation inside the thermoelectric unit, due to its enclosure in a sealed enclosure filled with dry air.

 All the main features of the proposed thermoelectric liquid generator of cold or heat are absent in the analog devices and the prototype, are interconnected with each other and with the signs of the ascertaining part. Their relationship is sustainable.

 The proposed thermoelectric liquid generator of cold or heat is shown in the accompanying drawings. In FIG. 1 shows a perspective view of a thermoelectric generator; FIG. 2 - a heat exchanger with openings, in FIG. 3 - section of the cold generator, where: 1, 2, 3, 4, 5 - heat exchangers, 6, 7 - sealing bushings, 8 - rubber sealing ring, 9 - channels for the passage of liquid, 10 - thermoelectric batteries, 11 - openings for contact thermal batteries with liquid, 12 - the side walls of the channels, 13 - the outer casing of the cold generator. In this case, heat exchangers 1, 3, 5 form a “hot” generator path. Heat exchangers 2, 4 form a “cold” generator path. The heat exchangers are assembled into a common package in the sequence 1, 2, 3, 4, 5, between which thermal batteries 10 are installed, and the entire package of the cold generator is pulled together, for example, by studs (not shown in the figures). Through the bushings 6, 7 of the extreme heat exchangers, the fluid is supplied and discharged.

 The cold generator operates as follows. When power is supplied to the thermopiles 10 and the pumps are turned on (not shown in Fig.), The liquid is pumped along the “hot” and “cold” paths, the cold sides of thermoelectric batteries begin to cool the surfaces of the “cold” heat exchangers 2, 4 and, accordingly, cool the liquid passing through them, which is supplied to the cooling object, and the hot sides of the thermal batteries heat the surfaces of the "hot" heat exchangers 1, 3, 5, while the liquid passing through this path carries away the heat released by thermoelectric batteries.

 The use of the present invention will allow for efficient cooling or heating of air on various vehicles, in particular in a compartment of passenger railroad cars, in electric cabs, in cars and their closed bodies, tanks, armored personnel carriers, helicopters, in sea, air, space and some other types transport, as well as in stationary conditions, for example, in equipment for the conservation and production of agricultural products. Compactness, reliability, low noise, small weight and size parameters of the sealed enclosure, which makes it possible to eliminate condensation in a closed volume, made it possible to create a unique experimental thermoelectric thermoelectric generator of cold or heat.

Claims (3)

 1. Thermoelectric liquid generator of cold or heat, comprising a housing, alternating "hot" and "cold" heat exchangers placed between them thermoelectric batteries connected to a constant current source, characterized in that the heat exchangers are made of a profile with channels for the passage of liquid at the edges which, for supplying and discharging liquid, bushings are installed that provide sealing of the liquid path due to the sealing, mainly rubber ring.  2. Thermoelectric liquid generator of cold or heat according to claim 1, characterized in that for direct contact of the liquid with the outer surfaces of the thermopiles in the heat exchangers, in the locations of the thermopiles, openings with jumpers are made, mainly being the walls of the profile channels, onto which to seal the thermosensitive elements batteries from the liquid applied adhesive sealant.  3. Thermoelectric liquid generator of cold or heat according to claim 1, characterized in that its housing is sealed and filled with dry air.

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