RU2010108967A - METHOD AND DEVICE OF INDUCTION HEATING OF LIQUIDS (OPTIONS) - Google Patents

Abstract

 1. The method of induction heating of liquids by creating an alternating magnetic field and exposure of the created field to the material of a heated container with liquid, characterized in that for heating the container with liquid create a resonant self-oscillating mode of an electromagnetic field of increased frequency f0 = 1-100 kHz in the inductor coil of the heater and the obtained electromagnetic field acts on the material of the heated vessel and liquid in the frequency range of the maximum losses in the material of the vessel, and the temperature of the heated Liquids at the outlet of the container is compared with a predetermined value and according to this temperature is maintained in the heated liquid supply given parameters change the flow rate through the tank of an induction heater and heating time fluid induction heater. ! 2. The method of induction heating of liquids by creating an alternating magnetic field and exposure of the created field to the material of the heated container with liquid, characterized in that for heating the container with liquid create a resonant self-oscillating mode of an electromagnetic field of increased frequency f0 = 1-100 kHz in the inductor winding and act received electromagnetic field on the material of the heated vessel and liquid in the frequency range of the maximum losses in the material of the vessel, and the transmission of electromagnetic energy from the converter to the inductor winding is carried out using a high-frequency resonant transformer through a single-wire waveguide line, while the temperature of the heated fluid is measured at the outlet of the tank, compared with a predetermined value and in accordance

Claims (5)

1. The method of induction heating of liquids by creating an alternating magnetic field and exposing the created field to a material of a heated container with liquid, characterized in that a resonant self-oscillating mode of an increased frequency electromagnetic field f ₀ = 1-100 kHz is created in the inductor coil of the heater to heat the container with liquid and act on the material of the heated container and liquid in the frequency range of the maximum losses in the material of the container with the resulting electromagnetic field, and the temperature of the heated the liquid at the outlet of the tank is compared with a predetermined value and in accordance with this, the temperature of the heated liquid is maintained in the specified parameters by changing the flow rate of the flow through the capacity of the induction heater and the time of heating the liquid by the induction heater. 2. The method of induction heating of liquids by creating an alternating magnetic field and exposing the created field to a material of a heated container with liquid, characterized in that a resonant self-oscillating mode of an increased frequency electromagnetic field f ₀ = 1-100 kHz in the inductor winding is created for heating the container with liquid the resulting electromagnetic field affects the material of the heated container and liquid in the frequency range of the maximum losses in the container material, and the transmission of electromagnetic energy from the converter I to the inductor winding is carried out using a high-frequency resonant transformer through a single-wire waveguide line, while the temperature of the heated fluid is measured at the outlet of the tank, compared with a predetermined value, and in accordance with this, the temperature of the heated fluid is maintained in the specified parameters by changing the supply voltage of the inductor coil of the induction heater. 3. A device for induction heating of liquids containing a primary winding and a heated container with a liquid, characterized in that the inductor coil of the heater is included in a resonant self-oscillating circuit with a frequency converter and a resonant capacitance, the frequency of which is in the frequency range of the maximum electromagnetic losses in the heated container material with liquid, and the heated tank is equipped with insulating inserts, covered with a layer of electrical insulation, equipped with a temperature sensor heated Liquids mounted on the outlet of the container and the temperature sensor associated with the electric pump through a dial control unit regulating the feed rate of fluid flow through the fluid container and the heating time, to maintain the temperature of the heated liquid in the given parameters. 4. Device for induction heating of liquids, containing a primary winding, a heated container with liquid, characterized in that the inductor winding of the heater is connected via a single-wire waveguide line using a high-frequency resonant transformer through one high-voltage output of the high-voltage winding into a resonant self-oscillating circuit containing a low-voltage winding of a high-frequency resonant transformer, two resonant capacitance and a frequency converter, while the frequency of the resonant circuit n is in the frequency range of the maximum electromagnetic losses in the heated material of the container with liquid, and the heated container is equipped with insulating inserts, covered with a layer of electrical insulation, equipped with a temperature sensor of the heated fluid installed at the outlet of the container, and the temperature sensor is connected through a switch to a voltage and frequency converter, changing the value of the supply voltage of the inductor winding of the induction heater. 5. The device for induction heating of liquids according to claim 4, characterized in that the inductor windings of several electric heaters, comparable in power with the power of the energy source, are connected to the single-wire waveguide line of one terminal of the high-frequency resonant transformer, and the total capacity of the inductor winding is used as a natural electric capacitance with a metal container and liquid or the capacity of the grounding circuit.