RU2011120834A - METHOD FOR OPERATIONAL DEPLOYMENT OF LONG-TERM AUTONOMOUS LIFE-SUPPORT SYSTEM OF A LOT OF PEOPLE IN COLD CLIMATE CONDITIONS - Google Patents

Abstract

1. The method of operational deployment of a long-term autonomous life-support system for many people in cold climatic conditions, characterized by the installation of heating systems, the basis of which is used a high-voltage induction electric boiler, with laying pipelines from it to residential buildings or a tent camp, characterized in that for the energy supply of induction electric boilers use a diesel generator, the fuel to which is delivered by a tank, part of the generated electricity is diesel The e-generator is diverted by communications to residential buildings or the tent camp, water is used as the heat carrier of the induction electric boiler, which, if necessary, is delivered to the deployment site of the autonomous life-support system of the tank, and the induction electric boiler is made up of a circulation pump, vertically installed flowing tanks, each of which is isolated from another with the help of bushing ceramic insulators, to which voltage is applied, and electrodes are used as an inductor stainless steel, which is installed inside each flow-through vertically mounted tank with the possibility of immersion inside the tank at different depths. 2. A method for operational deployment of a long-term autonomous life support system according to claim 1, characterized in that the immersion of the electrodes at different depths is provided by screwing them in or out of the tank body. The operational deployment method of a long-term autonomous life support system according to claim 2, characterized in that screwing or unscrewing from the housing

Claims (6)

1. The method of operational deployment of a long-term autonomous life-support system for many people in cold climatic conditions, characterized by the installation of heating systems, the basis of which is used a high-voltage induction electric boiler, with laying pipelines from it to residential buildings or a tent camp, characterized in that for the energy supply of induction electric boilers use a diesel generator, the fuel to which is delivered by a tank, part of the generated electricity is diesel The e-generator is diverted by communications to residential buildings or the tent camp, water is used as the heat carrier of the induction electric boiler, which, if necessary, is delivered to the deployment site of the autonomous life-support system of the tank, and the induction electric boiler is made up of a circulation pump, vertically installed flowing tanks, each of which is isolated from another with the help of bushing ceramic insulators, to which voltage is applied, and electrodes are used as an inductor stainless steel, which is installed inside each flowing vertically mounted tank with the possibility of immersion inside the tank at different depths. 2. The method of operational deployment of a long-term autonomous life support system according to claim 1, characterized in that the immersion of the electrodes at different depths is provided by screwing them in or out of the tank body. 3. The method of operational deployment of a long-term autonomous life support system according to claim 2, characterized in that the screwing or unscrewing of the electrodes from the tank body is provided by electric drives with stuffing box seals. 4. The method of operational deployment of a long-term autonomous life support system according to claim 1, characterized in that the inductor is based on a magnetic system and a primary winding consisting of coils, with insulation to the voltage class. 5. The method for operational deployment of a long-term autonomous life support system according to claim 4, characterized in that the coils are fixed in the frame using pressure elements consisting of insulators (above and below each coil) and pressure bolts. 6. The method of operational deployment of a long-term autonomous life-support system according to claim 1, characterized in that temperature sensors of the inlet and outlet water are installed on the outer surface of the inlet and outlet pipes, thermal switches are installed on the surface of the water heater pipes, and a sensor is located near the inlet (lower) flange flow.