RU95119512A - HEAT TRANSFER TWO-PHASE CIRCUIT (OPTIONS) - Google Patents

Claims (6)

1. A heat transfer two-phase circuit with capillary pumping, comprising evaporators connected with a steam and condensate conduit with capillary pumps installed inside, and at least one condenser, as well as a tank connected to the condensate conduit by a pipeline, characterized in that each evaporator is equipped with a thermoelectric micro-refrigerator connected by a hot we fall to the heat supply zone of the evaporator, and an additional heat pipe introduced into the supply channel of the capillary pump, which contacts freely th part with a cold junction of a thermoelectric micro-refrigerator.  2. The heat transfer circuit according to claim 1, characterized in that the hot junction of the thermoelectric micro-refrigerator is connected to the heat supply zone of the evaporator using a heat pipe, for example, a heat pipe or copper heat bus.  3. The heat transfer circuit according to claim 1, characterized in that the additional heat pipe is fixed in the supply channel using ribs forming a system of longitudinal parallel channels.  4. A heat transfer two-phase circuit with capillary pumping, comprising evaporators connected with a steam and condensate line with capillary pumps installed inside, and at least one condenser, as well as a tank connected to the condensate line by a pipe, characterized in that each evaporator is equipped with an additional capillary structure, and also a thermoelectric micro-refrigerator, and an additional capillary structure connects the walls of the feed channel of the capillary pump to the inner walls of the and a condensate conduit adjacent to the evaporator, and the thermoelectric micro-refrigerator is connected externally to the walls of the condensate conduit by a cold junction, and with the heat supply zone of the evaporator by a hot junction.  5. The heat transfer circuit according to claim 4, characterized in that the hot junction of the thermoelectric micro-refrigerator is connected to the heat supply zone of the evaporator using a heat pipe, for example, a heat pipe or copper heat bus.  6. The heat transfer circuit according to claim 4, characterized in that a capillary insulator made of a porous structure having a pore size smaller than the pore size of the additional capillary structure is installed at the junction of the additional capillary structure with the condensate line.