SU706672A1 - Heating tube with electrohydrodynamic generator - Google Patents

Claims (2)

The invention relates to the field of heat engineering, and more specifically to heat pipes, with an electro-hydrodynamic generator. Heat pipes with an electrohydraulic generator are known, which contain an evaporator, a condenser, and an electrohydrodynamic energy converter for the flow of steam from a heat transfer fluid into electrical energy with an ionizer, a causative agent, and a collector installed in the steam volume. A disadvantage of the known heat pipes is their non-autonomy, since to start them, an external current source is required to create an electric field. The aim of the invention is to provide a self-starting electrohydrodynamic generator, which at the same time increases efficiency. This goal is achieved by the fact that the electrohydrodynamic converter is made in the form of a nozzle of bimetallic plates covered with a dielectric on the side of the steam flow, and an adjustable high-voltage transformer that acts as a causative agent is connected between the collector and the ionizer. The pipe has ascending and descending branches connected in pairs and liquids, with an ionizer, an electrohydrodynamic converter and a collector sequentially installed in the ascending branch, and a condenser in the descending branch. The drawing schematically shows the described pipe. It contains the evaporator 1, the condenser 2p electrohydrodynamic detector of the energy of steam flow from heat-transfer fluids into electricity, energy, made in the form of a nozzle 3, a collector 4, a high-voltage adjustable transformer 5, upstream 6, downward 7 pipe branches, ionizer 8, insulating supports 9 n l6 consumer 11 electricity. The pipe is operated as follows. When heat load is applied to the evaporator 1, the passage through the nozzle 3 is charged with the potential of one, and the bimetallic nozzle 3 covered with a dielectric, the potential of the other charge flowing to the ground. The charge received by the steam is captured by the collector 4, Part of the charge reaches the consumer 11 and part through an adjustable high-voltage transformer 5 enters a needle-type ionizer 8 installed with a small deepening of the electrodes in the dielectric liquid. As the potential on the ionizer 8 increases, dispersion of the liquid begins, which significantly contributes to an increase in the efficiency of generation of electrical energy. With an increase in thermal power at the evaporator, in the ascending branch 6 of the heat pipe, the temperature rises, which causes the bimetallic nozzle plates 3 to bend, which diverge towards the pipe walls, reducing pressure losses in the vapor phase. The heat pipe continues to operate as an electrohydrodynamic generator, and part of the electrical energy obtained from thermal energy is expended on self-excitation, and a part is useful to the consumer. The heat carrier vapor is condensed in the condenser 2- installed in the descending branch 7 of the heat pipe. The economic efficiency of the proposal lies in the absence of a permanent source of electrical current, which simultaneously creates autonomy of the proposed heat pipe with electro-hydrodynamic generators (. Claim 1. Thermal pipe with electro-hydrodynamic generator, containing an evaporator, a condenser and a vapor-flow-mounted electro-hydrodynamic converter for steam energy heat carrier into electrical energy with an ionizer, a causative agent and a collector, characterized by it, that in order to provide a self-electron trogidrodinami Cesky generator and increasing the cost, electrohydrodynamic transducer is a nozzle of the bimetallic plates coated by the vapor stream insulator, and between the collector and the ionizer is turned on adjustment voltage transformer serving excite & Lemma. 2. A pipe according to claim 1, in that it has the ascending and descending branches connected in a pair and a liquid, and an electrohydrodynamic ionizer is installed in the ascending branch successively along the steam a converter and a collector, and a downstream capacitor. Sources of information taken into account in the examination 1. US patent No. 3683214, cl. 31O-10, pub. 1971.