Method of self-sufficient power generation in heating system, involves inducing electrical voltage by continuous motion of hydrophilic magnetic nanoparticles along coil based on medium introduced into heating system

摘要

#CMT# #/CMT# The method involves providing the pump for conveying the medium (2) in the heating circuit. The medium is circulated along the circulation path (1). The coil (3) is attached around the heating pipe (4) made of electrically non-conductive material. An electrical voltage is induced by continuous motion of hydrophilic magnetic nanoparticles (5) along the coil based on the medium introduced into the heating system. A magnetic ring (6) is fixed close to coil so that the hydrophilic magnetic nanoparticles are moved mainly in same magnetic orientation, as close as possible along the coil. #CMT# : #/CMT# An independent claim is included for device for self-sufficient power generation in heating system. #CMT#USE : #/CMT# Method of self-sufficient power generation in heating system. #CMT#ADVANTAGE : #/CMT# The hydrophilic magnetic nanoparticles can build a minimum distance to the coil, and thus the particles are capable of inducing a high voltage. The hydrophilic magnetic nanoparticles being attracted to each other strongly can be prevented so that undesirable and hard agglomerates can be avoided. The components of heating system can be independently supplied by the heating system with electric energy, without connection to be made through electrical lines. The batteries or accumulators in the individual room control are no more necessary. The induced voltage can be optimized to forward to the relevant consumer and can be explained by the use of the medium to produce electricity with energy saving effect. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The drawings show the cross-sectional view of the heating system. 1 : Circulation path 2 : Medium 3 : Coil 4 : Heating pipe 5 : Hydrophilic magnetic nanoparticle 6 : Magnetic ring #CMT#METALLURGY : #/CMT# The hydrophilic magnetic nanoparticles in the hard magnetic core is selected from the group consisting of neodymium-iron-boron compounds, magnetic alloy of iron chromium cobalt, aluminum-nickel-cobalt compounds, cobalt-iron-vanadium alloy or samarium-cobalt compounds.