CN1927990A - High-performance energy-saving coolant and application method thereof in radiator - Google Patents

Abstract

The present invention discloses one kind of high efficiency energy-saving heat emitting agent and its application method in heat radiator. The heat emitting agent consists of ethanol 50-60 wt%, methanol 15-25 wt%, and acetone 15-25 wt%. When used, the heat emitting agent is filled into sealed cavity comprising heat emitting fins or heat emitting tubes and the cavity is vacuumized. The heat emitting agent is heated by heating pipe so as to be activated and vaporized to release great amount of heat in high heat efficiency.

Description

High-performance energy-saving coolant and the application method in scatterer thereof

Technical field

The present invention relates to a kind of heat radiation preparation compositions, relate generally to a kind of high thermal efficiency in the heating service device, energy-saving heat radiation preparation compositions of being used in.And relate to its application method in scatterer.

Background technology

Existing thermal cycling scatterer mainly by flange-cooled extended spread pipe and up and down two transverse tubes form.Heat-eliminating medium passes in and out respectively from each mouth of last lower transverse tubule, inside and outside scatterer, form a heat-eliminating medium recycle system, typically such as indoor hot water radiation, hot water enters from scatterer transverse tube one end through water pipe, after the perfect aspect internal recycle dispels the heat in scatterer, discharge from an end of another transverse tube, enter extracorporeal circulation.

The defective of this traditional heat-dissipating device is that mainly heat-eliminating mediums such as water, oil, steam need participate in the inside and outside systemic circulation, and consumption is big, and degree of cleaning are poor, and thermo-efficiency is low, causes energy dissipation.

The electrically heated scatterer has clean and advantage easy to use, but the mode that present electricradiator only relies on electric energy to be converted to heat energy provides heating, the required heat of heating, and power consumption is big, and thermo-efficiency is low.

Summary of the invention

Technical problem to be solved by this invention is, provide a kind of high-performance energy-saving coolant and as the application method of radiator heat-dissipation medium, described coolant is under auxiliary thermal source preheats effect, heat radiation self is activated, realize efficient, energy-saving and environmental protection, overcome the deficiency of above-mentioned existing procucts and method.

The technical solution adopted for the present invention to solve the technical problems is as follows:

A kind of high-performance energy-saving coolant, the basic material formula of its coolant composed of the following components, ethanol 50～60%, methyl alcohol 15～25%, acetone 15～25%.

The distilled water that can on the basic material formula of coolant basis, add basic material 20～80%.

Can also add the deicing fluid that basic material 0～50% is arranged.

The application method of foregoing high-performance energy-saving coolant in scatterer is: add coolant in the enclosed housing of being made up of radiator element or radiating pipe, and vacuumize, then coolant is implemented heating.

Wherein the method that coolant is implemented to heat can be, in described enclosed housing heating tube is installed, and this heating tube is electrothermal tube or heat-conducting medium circulation tube.

Among the present invention, coolant is subjected to be activated and to vaporize after the heating tube heating, discharges a large amount of heat energy.Because the heating tube thermal source does not participate in body-internal-circulation, consumption significantly reduces, and not only saved the energy to a great extent, and its cleanliness factor improves greatly.The thermal conductivity between heat-eliminating medium and the thermal source and the thermo-efficiency of entire radiator all increase substantially.The more important thing is, the heat that heating tube provided as thermal source is mainly used in the coolant heating, and the heat of heat sink radiates so can be saved a large amount of energy mainly from coolant, is example with electrothermal tube as heating tube, and it economizes on electricity more than 50% than the common electrical warmer.

Description of drawings

Fig. 1 is a structural representation of making an embodiment of heating tube among the present invention with hot-water line.

Fig. 2 is a structural representation of making an embodiment of heating tube among the present invention with electrothermal tube.

Fig. 3 is the schematic side view of Fig. 2.

Embodiment

Specify the present invention below in conjunction with embodiment.

Coolant preparation example one

Ethanol 50% (weight percent, down together), methyl alcohol 25%, acetone 25%, above-mentioned material mixing.

Coolant preparation example two

Ethanol 60%, methyl alcohol 15%, acetone 15%, above-mentioned material mixing.

Coolant preparation example three

Ethanol 55%, methyl alcohol 20%, acetone 25%, above-mentioned material mixing.

Coolant preparation example four

Ethanol 55%, methyl alcohol 25%, acetone 20%, above-mentioned material mixing.

Coolant preparation example five

55 parts of ethanol (weight part, down together), 20 parts of methyl alcohol, 25 parts in acetone, 20 parts of distilled water, above-mentioned material mixing.

Coolant preparation example six

55 parts of ethanol (weight part, down together), 25 parts of methyl alcohol, 20 parts in acetone, 50 parts of distilled water, above-mentioned material mixing.

Coolant preparation example seven

55 parts of ethanol (weight part, down together), 22.5 parts of methyl alcohol, 22.5 parts in acetone, 80 parts of distilled water, above-mentioned material mixing.

Coolant preparation example eight

55 parts of ethanol (weight part, down together), 22.5 parts of methyl alcohol, 22.5 parts in acetone, 80 parts of distilled water, 25 parts of deicing fluid, above-mentioned material mixing.

Coolant preparation example nine

55 parts of ethanol (weight part, down together), 22.5 parts of methyl alcohol, 22.5 parts in acetone, 80 parts of distilled water, 50 parts of deicing fluid, above-mentioned material mixing.

Make the coolant application method example of heating tube with hot-water line

As shown in Figure 1, this embodiment comprises upper lateral tube 5, the lower transverse tubule of being made by copper pipe 8 and is fixed in the vertical comb 3 of some aluminium alloys between the lower transverse tubule that being fixed with on the wherein vertical comb 3 is the radiator element 4 of aluminum alloy material equally.

Upper lateral tube 5 and lower transverse tubule 8 are straight pipe; In lower transverse tubule 8, be penetrated with a heating tube 2 made from stainless steel tube.

Upper lateral tube 5 two ends are blocked with two stainless steel tube plugs 6, and on a pipe plug vapour lock 7 that is used to inject coolant are installed therein; Lower transverse tubule 8 two ends are connected with stainless steel joint for pipeline 1 respectively, get up the clearance seal between lower transverse tubule 8 inwalls and heating tube 2 outer walls by two O-ring seals 9 in this two tube stubs the inner, make upper lateral tube 5, vertical comb 3, lower transverse tubule 8 form an airtight cavity.This cavity need vacuumize, and can vacuumize earlier, and the coolant that reinjects also can inject coolant earlier and vacuumize, and perhaps the limit vacuumizes marginal not and goes into coolant.

Described two tube stub 1 outer ends are used for the circulating hot water pipe coupling, and hot water flows through from heating tube 2 provides thermal source to the intravital coolant heating in chamber, and the latter is dispelled the heat at the cavity internal recycle after being heated and being activated.

Make the coolant application method example of heating tube with electrothermal tube

As Fig. 2, shown in Figure 3, present embodiment comprises lower transverse tubule 4 and some groups of vertical row's radiating pipes 13 that are fixed on the lower transverse tubule 12, and this radiating pipe is actually aluminum alloy heat sink, and their lower end all is communicated with lower transverse tubule 12.The vapour lock 18 that is used to inject coolant wherein is installed on the lower transverse tubule 12.

Radiating pipe 13 and lower transverse tubule 12 form the cavity of an enclosed vacuum state, are penetrated with an electrothermal tube 10 as the present embodiment heating tube in lower transverse tubule 12.The thermal source that electrothermal tube 10 provides heats coolant, and the latter is heated and is activated the back at the cavity internal recycle, outwards heat radiation.

Wherein electrothermal tube 10 is connected with rly. 9, temperature controller 15, switch 14 and power supply, pilot lamp etc. by circuit.The bottom surface of device is a lower cover 11, and the side is a side cover 16, and end face is a loam cake 19, and they constitute the housing of this device, and lower transverse tubule 12, rly. 9, temperature controller 15, switch 14 and pilot lamp all are fixedly mounted on the housing.

At housing bottom universal wheel 20 and fan 17 are installed, wherein the effect of fan 17 is the heat that electrothermal tube 10 distributes upwards to be arranged loose, and fully improves the thermo-efficiency of electrothermal tube.

Claims (7)

1. a high-performance energy-saving coolant is characterized in that: the basic material formula of its coolant composed of the following components, ethanol 50～60%, methyl alcohol 15～25%, acetone 15～25%.

2. high-performance energy-saving coolant according to claim 1 is characterized in that: the distilled water that adds basic material 20～80% on the basic material formula of coolant basis.

3, high-performance energy-saving coolant according to claim 1 and 2 is characterized in that: also add the deicing fluid that basic material 0～50% is arranged.

4, the application method of high-performance energy-saving coolant as claimed in claim 1 or 2 in scatterer is characterized in that: add coolant in the enclosed housing of being made up of radiator element or radiating pipe, and vacuumize, then coolant is implemented heating.

5, the application method of high-performance energy-saving coolant as claimed in claim 3 in scatterer is characterized in that: add coolant in the enclosed housing of being made up of radiator element or radiating pipe, and vacuumize, then coolant is implemented heating.

6, the application method of high-performance energy-saving coolant as claimed in claim 4 in scatterer is characterized in that: the method for coolant being implemented heating is, in described enclosed housing heating tube is installed, and this heating tube is electrothermal tube or heat-conducting medium circulation tube.

7, the application method of high-performance energy-saving coolant as claimed in claim 5 in scatterer is characterized in that: the method for coolant being implemented heating is, in described enclosed housing heating tube is installed, and this heating tube is electrothermal tube or heat-conducting medium circulation tube.

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