CN1129315A - High-efficiency energy-saving heat-conducting method - Google Patents

Abstract

The high-efficiency heat-conducting method is characterized by that both ends of a heat conductor are sealed, and the interior of said heat conductor is evacuated, then the heat-conducting materials of sodium chlrodie, ethyl alcohol, octane and water are injected in to make the heat-conducting element which can be used in heat-exchanger can be made up. The heat-conducting speed of said heat-conducting element is 1200 times that of general copper tube, and the energy source can be saved by above 50%, and at same time this heat-conducting element is not easy to be corroded and its heat-conducting gas is not lost, so that it has the extensive application range.

Description

High-efficiency energy-saving heat-conducting method

The present invention relates to a kind of energy-efficient heat-conducting method, can in all have the equipment of heat exchange and install, use.

In the heat exchanger that generally uses, generally be to use the heat exchange element of different shape at present, carry out heat exchange, but the loss ratio that all exists the energy be bigger, heat exchange efficiency is not high enough, the perishable deficiency that waits.

The purpose of this invention is to provide a kind of energy-efficient heat-conducting method.

The object of the present invention is achieved like this.Adopt the method for sealing that the two ends of heat carrier are shut, and the inside of heat carrier is vacuumized, filling heat-conductive material is afterwards made the heat conducting element among the heat exchanger.

The comparable common copper pipe of heat-transfer rate of the heat exchange element made from this kind method is determined 1200 times, and energy savings surpasses 50%.This kind heat conducting element is not perishable simultaneously, not loss of heat-conducting gas.The scope of application of this heat conducting element is extremely wide, exists in the equipment and device of heat exchange, as the heating system of ordinary residence applicable to all; The heating system or the heat dissipation equipment of the vehicles such as train, steamer and automobile; Also can be electric heater, water heater and industrial equipment thermal source (as: hot-blast stove of drying machine) or the like is provided.

Embodiment 1, and heat carrier can be that pipe fitting also can be similar radiator, and its two ends are sealed it by the sealing termination, can weld.Utilization vacuumizes the hole with vacuumizing back filling heat-conductive gas in the heat carrier, afterwards the hole is sealed.In the end heating of heat carrier, the temperature of the other end is almost identical with the temperature of fire end after the several seconds, and its heat-transfer rate can be 1200 times of copper.

Embodiment 2, and heat carrier is made cannula-like, and sealed at both ends between two tube walls also loaded onto hot gas, and circulating heat conduction medium (as water) is housed in interior pipe.Be heated as outer tube, the circulatory mediator in the interior pipe can reach needed temperature rapidly.

The proportioning components of conduction material is: (%) 1, sodium hydride (NaH): 0.1-0.8; 2, chlorate (M ¹ClO): 0.1-0.8; 3, octane number: 38-50; 4, ethanol (C ₂H ₅OH): 3-5; 5, hydrochloric acid (HCL): 0.3-0.6; 6, salt (NaCL): 3-5; 7, water (H ₂O): 35-48; 8, oil (edible oil or machine oil): 1-8.

Through test, the warm vapour of 300W electricity that uses this heat-conducting method to make can be equivalent to the heating load of the electric heater of common 1500W.Use 0.5 ton of coal of heat exchanger burning of this heat-conducting method can reach the heating load of 1 ton of coal of common heat exchanger burning.

Claims (1)

1, a kind of high-efficiency energy-saving heat-conducting method is characterized in that: a) adopt the method for sealing that the two ends of heat carrier are shut, and the inside of heat carrier is vacuumized, filling heat-conductive material is afterwards made the heat conducting element among the heat exchanger.B) the composition proportioning of employed conduction material is: (%) 1) sodium hydride (NaH): 0.1-0.8; 2) chlorate (M ¹Cl0): 0.1-0.8; 3) octane number: 38-50; 4) ethanol (C ₂H ₅OH): 3-5; 5) hydrochloric acid (HCL): 0.3-0.6; 6) salt (NaCL): 3-5; 7) water (H ₂O): 35-4; 8) oil (edible oil or machine oil): 1-8.