SU1000718A1 - Rotor-type film contact heat exchanger - Google Patents

Description

(54) PLASTIC HEAT EXCHANGER

Claims (2)

The invention relates to heat-generating devices and can be used in heating and hot water supply systems for buildings. A plate heat exchanger is known that has fins on the plates, which contributes to the intensification of heat exchange due to turbulence in the flows. Heat exchanging media i The result is that the consumer dumps it without using it to the sewage system. In addition, with a sharp reduction in the consumption of the heated medium due to the inertia of heat its automatic control is observed to overheat, and in the case of the presence of water and its instantaneous boiling up, accompanied by increased scale formation on the heat exchange surfaces. This leads to an increase in the resistance of the heat exchanger along the path of the heated medium and a sharp increase in pressure loss in the heat exchanger. To eliminate these phenomena, it requires cleaning the heat exchanger to install additional pumps. Also known is a plate heat exchanger containing a stack of plates provided with gaskets and emitting channels for heat exchanging media 2. The disadvantages of the known heat exchanger are the instability of the heat transfer mode and the low heat exchange rate. The purpose of the invention is the stabilization of the thermal regime and the intensification of heat exchange. The goal is achieved by the fact that the heat exchanger further comprises a closed circulation loop filled with a liquid heat-storage agent, which includes channels located between channels for heat-exchange media. The proposed plate heat exchanger is illustrated in the drawing. The heat exchanger contains a package of finned plates 1 equipped with rubber gaskets 2 and forming channels 3-6 for heat exchanging media and a closed circulation loop 7 filled with a liquid heat storage agent, which includes 8 between the channels 3-6 for heat exchanging media. Channels 3 and 4 are used for supplying and discharging coolant, channels 5 and b for supplying and discharging heated medium; d. The heat exchanger operates as follows. The coolant flows through the supply pipe and the channel 3 between the plates. The spent heat carrier is discharged through channel 4: A conduit and channel 5 in countercurrent are given a heated medium, which is led through pipeline and channel 6. Heat-storage fluid circulates in circuit 7 consisting of pipeline and channels 8 located between channels 3 -b for heat exchanging media. The heat-accumulating liquid absorbs heat through the plates 1 bordering the coolant and transfers it to the heated medium. At times of lack of heat transferred by the coolant, the heated medium receives heat from the accumulating fluid. In a closed loop 7 filled with accumulating fluid, it is constantly circulated under the action of gravitational forces. The direction of the gravitational flow is parallel to the heat-transfer fluid. The transfer of heat by the accumulating fluid to remote areas of the heat exchanger increases its heat transfer coefficient / as the temperature difference increases. The economic effect resulting from the use of the proposed heat exchanger arises due to the stabilization of the thermal regime and the intensification of heat exchange. The invention includes a plate heat exchanger containing a stack of plates equipped with gaskets and c5 brs channels for heat exchanging media, characterized in that, in order to stabilize the heat regime and intensify the heat exchange, it additionally contains a closed circulation loop filled with a liquid heat storage medium, which includes the channels located between the channels for heat exchanging media. Sources of information taken into account in the examination 1. The author's certificate of the USSR 380936, cl. F28I) 9/00, 1971. 2. Authors certificate of the USSR W 484380, cl. F281) 9/00, 1973.