As shown in the schematic diagram, when the high-voltage power is connected to the A-phase heating pipe group, the B-phase heating pipe group, and the C-phase heating pipe group, the cold air enters from the air inlet under the action of the fan. After the cold air passes through the A-phase heating pipe group, the B-phase heating pipe group, and the C-direction heating pipe group, the cold air enters from the air inlet under the action of the fan. When the cold air passes through the A-phase heating pipe group, the B-phase heating pipe group, and the C-phase heating pipe group, the cold air is heated to the set temperature, The heated hot air is output from the air outlet to complete the air heating process.
Energy storage and heat transfer oil devices are widely used in industrial drying fields, such as printing and dyeing, canning, spraying, and other drying processes.
Energy storage heating and wind devices can also be widely used in industries such as food, automobile manufacturing, printing, chemical industry, papermaking, rubber, medicine, petrochemical, metallurgy, and so on.
Energy storage heating devices use cheap electrical energy or wind energy generated during the low ebb hours of the night to convert electrical energy into high-temperature heat energy and store it in the heat storage body of the device.
The energy storage steam generation device uses cheap electrical energy during the low ebb period at night to convert electrical energy into high-temperature heat energy and store it in the heat storage body of the device. When using heat, the fan operates to allow air to flow through the heat storage body, exchanging heat from the heat storage body into high-temperature hot air. After passing through a heat pipe heat exchanger, high-temperature hot air heats the water in the upper steam drum, generating steam for use. If superheated steam is required, a superheater can also be installed on the pipeline to reheat the generated steam through hot air to meet the high-temperature steam output requirements.
Energy storage technology refers to the conversion of electrical energy into thermal energy by electrical equipment during the low electricity price period (22:00 - 6:00 in Beijing), and storage of the energy.
Dynamic solid thermal storage electric heating mainly uses waste air and light to generate electricity or use electricity during low periods. Heat is generated through a heating pipe to heat the thermal storage brick to reach a temperature of 720 ℃ and store the heat.
The third generation: low resistance, efficiency of 80~92%, area increase of 3.5~5 times. The waste heat recovery device is a heat exchanger that exchanges energy between air and air through specially processed heat conductive metal plates. It can completely separate fresh air and exhaust air, avoiding any solvent transfer. Two streams of air cross and countercurrent into the heat exchanger, and the energy of fresh air and exhaust air is exchanged through metal plates to transfer heat from the warmer side to the cooler side, thereby achieving the recovery of energy in the exhaust air.