SU1652770A1 - Heat accumulators - Google Patents

Abstract

Invention m. used to accumulate heat from solar and other power plants. The goal is to reduce the charging time by intensifying heat transfer. The accumulator torus (AK) contains those installed in T - 1 - TLYA-77g- / b. the case (K) 1 on the supports 2 are horizontal open containers (E) 3 on top, filled with heat-accumulating material (TM) 4 with a phase transition in the operating temperature range. The AK is equipped with a frame (P) 5 with a drive (P) 6 of vertical movement, made of a material with a shape memory installed in K 1 and connected to it. The E 3 is made of elastic material and is bonded with P 5 in the zones between the supports 2. When discharging, the AK TM 4 hardens, after which P 6 is expanded. P 5 descends and deforms E 3, breaking TM 4. The contact surface of the TM 4 with heat carrier increases, which reduces the charging time of the AK. Before melting, TM P 6 is reduced and E 3 take a horizontal position. 2 Il. Ј; ate VI VI o

Description

The invention relates to a power system and can be used to accumulate heat from solar and other power plants.

The purpose of the invention is to reduce the charging time by intensifying heat exchange.

FIG. 1 shows a battery in a charged state, general view; Figure 2 is the same during the charging process.

The heat accumulator contains installed in the housing 1 on the supports 2 horizontal open containers 3 on top, filled with heat storage material 4 with a phase transition in the operating temperature range. The battery is provided with a frame 5 with a vertical displacement drive 6, made of a material with a shape memory, installed in the housing 1 and connected to it, the containers 3 being made of an elastic material and fastened to the frame 5 in the zones between the said supports 2.

The frame 5 is connected to the housing 1 by the spring 7, and to the tanks 3 by the help of the stops 8. The movement actuator 6 is connected to the housing 1 by the support 9, and to the frame 5 by the lever 10 and 11, the lever 10 is connected pivotally to the support 12 The housing 1 is equipped with nozzles 13 and 14, respectively, of the supply and removal of coolant.

The heat accumulator operates as follows.

In the charge cycle, the coolant having a temperature slightly higher than the melting point of the heat-accumulating material 4 melts the latter during the heat exchange during direct contact. AT

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Compiled by G.Savvatisky M.KelemeshTehred M.Morgental

Corre

During the discharge cycle, the cold coolant is heated in direct contact with the molten heat storage material 4. The latter solidifies. As the temperature decreases, the drive 6 is stretched, the frame 5 under its own weight and the spring 7 is lowered, deforms the elastic containers 3, acting on them with the stops 8, the heat-accumulating material 4 is broken and its contact surface with the heat carrier increases. During the subsequent battery closure, the heat exchange rate is thus increased. At the end of the charging cycle, the drive b is compressed, the frame 5 is raised, the spring 7 is stretched, and the tank 3 comes to its initial horizontal position, after which the solidification of the heat storage material 4 begins.

Claims (1)

The invention The heat accumulator containing installed in the case on the supports horizontal open-top containers filled with heat-accumulating material with a phase transition in the operating temperature range, is characterized by the fact that, in order to reduce the charge time by intensifying heat exchange, it is equipped A pgma with a vertical displacement drive made of a material with a shape memory installed in the housing and connected to the latter, said containers being made of an elastic material and fastened With frames in the areas between the supports. ehhhh .. X /, Xy Proofreader A. Osaulenko 7