RU148737U1 - ELECTRIC DRIVE VENTILATION AND WATER HEAT REGENERATION - Google Patents

Abstract

A device for regenerating waste heat of an electric drive ventilation with a volumetric flow of supply air and a volumetric flow of exhaust air, containing a heat recovery system that connects the volumetric flow of supply air and a volumetric flow of exhaust air for the purpose of heat transfer between the volumetric flow of supply air and the volumetric flow of exhaust air, which contains a heat exchanger - a recuperator and a heat pump, characterized in that it contains heat removal ducts connected to the air ducts of the electric motor, a slide gate located in front of the heat removal junction box, a coarse filter located in the heat removal junction box, a frequency-controlled motor is connected to the heat exchanger-rotary recuperator , the heat pump has an evaporator and / or condenser located in a heat removal box, located separately from the heat pump or connected to it by a monoblock structure, while the heat pump is connected to the heating and / sludge circuit and hot water supply, which includes a circulation pump and solenoid valves; the device additionally contains an automation unit associated with temperature and pressure sensors and a frequency-controlled motor of the heat exchanger-recuperator.

Description

The device is intended for regeneration of waste heat from ventilation of an electric drive.

A device for the recovery of waste heat refers to the power system and can be used at any enterprise operating synchronous motors of the STD type with a capacity of 6300 ... 12500 kW, having an open ventilation cycle.

Various heat recovery systems are known.

For example, RF patent No. 2168116, publ. 06.27.99, RU, IPC F24F 3/147, 12/00. A device for an air conditioning system comprising heat recovery means and means for supplying additional heating and cooling, in which at least one heating or cooling device is installed in the incoming air stream, the liquid side of which is connected to the heating or cooling device. A disadvantage of the known device is the high energy consumption for heating and cooling the air, as well as the inability to utilize excess heat.

The closest in technical essence and the achieved result is a device for energy recovery adopted as a prototype of a utility model (RF patent No. 2362946, publ. 10.09.10, RU, IPC F24F 12/00). A device for energy recovery in an installation of air conditioning and ventilation equipment with a volumetric flow of supply air and a volumetric flow of exhaust air contains a recovery unit, heat exchangers, a heat pump, a storage circuit, a heating system and a hot water supply system, a device for controlling the transfer of thermal energy in a storage circuit between a heat pump and a heat exchanger to the energy accumulator and / or heat exchanger.

A disadvantage of the known technical solution is the inability to use heat exchangers installed in the volumetric flows of the supply and exhaust air for simultaneous operation to remove excess heat, which does not allow for the most complete conservation and efficient use of the received energy, as well as the lack of the ability to quickly respond to the formation of excess heat.

The objective of the utility model is to create a device for the regeneration of waste heat of ventilation of an electric drive with the achievement of the following technical result - improving the reliability of the electric drive by lowering the temperature, as well as the regeneration of heat for heating and / or hot water supply.

The problem is solved in that the device for recovering exhaust heat of ventilation of the electric drive with a volumetric flow of supply air and a volumetric flow of exhaust air, comprising a heat recovery system connecting a volumetric flow of supply air and a volumetric flow of exhaust air for the purpose of heat transfer between the volumetric flow of supply air and the volumetric flow of exhaust air, which contains a heat exchanger-recuperator and a heat pump, according to a utility model contains a duct heat dissipation, connected to the electric motor ducts, a gate valve located in front of the heat removal junction box, a coarse filter located in the heat removal junction box, a variable frequency motor is connected to the heat exchanger-recuperator, the heat pump has an evaporator and / or condenser located in the heat removal box located separately from the heat pump, or connected with it in a monoblock structure, while the heat pump is connected to the heating and / or hot water supply circuit, which includes Chen circulation pump and solenoid valves; the device further comprises an automation unit associated with temperature, pressure and frequency-controlled heat exchanger-recuperator engines.

The figure shows a schematic illustration of a device for the regeneration of waste heat from ventilation of an electric drive.

The device comprises a frequency-regulated motor 1 connected to a heat exchanger - rotary recuperator 2, located in the aperture for the passage of air flows for direct transfer of heat energy between the volume flows of the supply and exhaust air, an evaporator and / or condenser 3 of the heat pump 4, located separately from the heat pump 4, or a monoblock structure connected to it, a heat pump 4 connected to a heating and / or hot water supply circuit 5 for transferring heat energy. In the circuit 5 of the heating and / or hot water supply includes a circulation pump 6 and solenoid valves 7 for regulating the pressure of the coolant. The automation unit 8 is connected to temperature sensors 9, a pressure sensor 10 and a variable-speed motor 1, coarse filters 11 are used to prevent pollution of the heat exchanger - rotary heat exchanger 2, the exhaust fan 12 is installed in the exhaust air stream, connected to the heat removal system (consists of boxes 13, a gate 14 for cutting off an inoperative electric drive), the supply fan 15 is installed in the supply air stream.

The device operates as follows.

Exhausted flows of hot air are ejected from the electric motor 16, passing through the boxes 13 through the gate 14, are recorded by temperature sensors 9 and sent to the automation unit 8. Passing through the filter 11, the exhaust hot air flows are cleaned of possible mechanical impurities, after which their temperature is repeatedly recorded. The automation unit 8 compares the temperature values of the exhaust air and supply air flows, on the basis of which it gives a command to rotate the frequency-controlled electric motor 1 of the rotary heat exchanger 2 to maintain the maximum efficiency. The exhaust air then passes through the boxes 13 through the evaporator and / or condenser 3 of the heat pump 4, previously the temperature sensor 9 fixes the temperature before entering the evaporator and / or condenser 3 and commands are issued through the automation unit 8 to control the heat pump 4, the circulation pump 6 of the circuit 5 of heating and / or hot water supply, as well as electromagnetic valves 7. The exhaust air after the evaporator and / or condenser 3 of the heat pump 4 is removed by an exhaust fan 12.

The supply fan 15, installed in the supply air stream in front of the rotary heat exchanger 2, returns the air heated from the rotary heat exchanger 2 back to the room for subsequent use as heating.

This device allows you to effectively carry out heat removal from the electric drive, thereby increasing the reliability of its operation, and also use the heat removed rationally.

In the transitional and cold periods of the year, the device allows you to heat the supply air without additional heating by the heat supply system, using it to heat the room. Due to the multi-stage recovery, heating and / or heating of the hot water supply of nearby buildings takes place. In the warm season, heat is removed from the electric motor and the room where it is located, increasing the reliability of the electric drive.

Claims (1)

A device for recovering the exhaust heat of ventilation of an electric drive with a volume flow of supply air and a volume flow of exhaust air, comprising a heat recovery system connecting a volume flow of supply air and a volume flow of exhaust air for the purpose of heat transfer between the volume flow of supply air and the volume flow of exhaust air, which contains a heat exchanger a recuperator and a heat pump, characterized in that it comprises heat removal ducts connected to electric motor ducts, a gate valve located in front of the heat removal junction box, a coarse filter located in the heat removal junction box, a frequency-controlled motor is connected to the heat exchanger-rotary heat exchanger, the heat pump has an evaporator and / or condenser located in the heat removal box, located separately from a heat pump or a monoblock structure connected to it, while the heat pump is connected to the heating and / or hot water supply circuit, which includes a circulation pump and electric tromagnetic valves; the device further comprises an automation unit associated with temperature, pressure and frequency-controlled heat exchanger-recuperator engines.

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