CN103673293A - Superconducting heat-transfer efficient boiler furnace - Google Patents

Abstract

The invention relates to a superconducting heat-transfer efficient boiler furnace which solves the problem that the heat transfer effect of an existing boiler furnace is poor. The superconducting heat-transfer efficient boiler furnace comprises a boiler furnace shell body, wherein the boiler furnace shell body is composed of a boiler furnace outer wall, a boiler furnace inner wall, a water inlet and a water outlet. The superconducting heat-transfer efficient boiler furnace is characterized in that the upper edge of the water inlet is lower than the upper plane of the boiler furnace shell body; when liquid is poured into the boiler furnace shell body, the upper plane of the liquid reaches the upper edge of the water inlet, and an air closed cavity is formed between the horizontal plane where the upper edge of the water inlet is located and the top face of the boiler furnace outer wall. The heat absorption capacity of the boiler furnace of the structure is more than ten times that of an ordinary boiler furnace under the condition of the same heat absorption area, and therefore the size of a boiler is reduced greatly, the manufacturing cost is lowered, and the aims of high efficiency, energy conservation and environment protection are achieved.

Description

A kind of high-efficiency boiler bladder of superconductive heat transfer

Technical field

The present invention relates to the high-efficiency boiler bladder of a kind of boiler bladder, particularly a kind of superconductive heat transfer.

Background technology

At present, on market, in the existing boiler use procedure of sale and use, inside of boiler is full of liquid, while adopting flame directly hot coal to be heated, by liquid absorption in stove and with heat.This mode can not make full use of and give play to the best physical property of hot coal itself, so heat conduction efficiency is low.

Summary of the invention

The object of the invention is in order to provide rational in infrastructure, the high-efficiency boiler bladder of a kind of superconductive heat transfer that heat conduction efficiency is high, to solve the poor problem of existing inside of boiler heat-transfer effect.

Technical scheme of the present invention is:

A kind of high-efficiency boiler bladder of superconductive heat transfer, comprise boiler bladder housing, boiler bladder housing is comprised of boiler bladder outer wall, boiler bladder inwall, water inlet, delivery port, its special character is: described water inlet upper limb is lower than the upper plane of boiler bladder housing, filling liquid in boiler bladder housing, when plane reaches water inlet upper limb on liquid, between water inlet upper limb place horizontal plane and boiler bladder outer wall end face, form air seal chamber.

The invention has the beneficial effects as follows:

Because water inlet upper limb is lower than the certain position of plane on boiler bladder housing, so that in the course of work, form air seal chamber between water inlet upper limb place horizontal plane and boiler bladder outer wall end face, the existence in air seal chamber has produced internal heat transfer space.Its operation principle is: along with temperature in boiler bladder raises, the oxygen in air seal chamber can constantly be dissolved in water, is recycled liquid and takes away, thereby finally make to be full of steam in air seal chamber and form vacuum.The latent heat of vaporization of general material is very large, and under vacuum state, the vapourizing temperature of material is very low.When temperature is high, its evaporation that just comes to life does not absorb a large amount of latent heat of liquefactions simultaneously.Along with a large amount of latent heats of vaporization of liquid absorption in boiler bladder, temperature raises, and acquires a certain degree with regard to start vaporizer.When circulating fluid is after absorbing the liquid of a large amount of latent heats of vaporization and vapour mixture and seeing off, in courage, enter again new cryogenic liquid, cryogenic liquid is heated again a large amount of latent heats of vaporization of absorption and is evaporated, the liquid of being seen off and the steam of carrying amount of heat simultaneously, mixed liquor gas again release heat, in liquid, goes round and begins again.The boiler bladder caloric receptivity (in the situation that endotherm area is identical) of this kind of structure is the more than ten times of plain cylindrical furnace inner bag caloric receptivity, thereby has greatly dwindled the volume of boiler, has reduced cost of manufacture, has reached objects efficient, energy-saving and environmental protection.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

In figure: water inlet 1, delivery port 2, boiler bladder outer wall 3, boiler bladder inwall 4, air seal chamber 5, liquid storage cylinder 6.

The specific embodiment

As shown in the figure, the high-efficiency boiler bladder of this superconductive heat transfer, comprise boiler bladder housing, boiler bladder housing is by boiler bladder outer wall 3, boiler bladder inwall 4, water inlet 1, delivery port 2 forms, water inlet 1 is connected with boiler bladder outer wall 3 one sides, boiler bladder outer wall 3 is fixedly connected with boiler bladder inwall 4, delivery port 4 is connected with the opposite side of boiler bladder outer wall 3, described water inlet 1 upper limb is lower than the upper plane of boiler bladder housing, at boiler bladder inwall 4, delivery port 2, between water inlet 1 upper limb, form liquid storage cylinder 6, filling liquid in boiler bladder housing, when on liquid, plane reaches water inlet 1 upper limb, between water inlet 1 upper limb place horizontal plane and boiler bladder outer wall 3 end faces, form air seal chamber 5.

Claims (1)

1. the high-efficiency boiler bladder of a superconductive heat transfer, comprise boiler bladder housing, boiler bladder housing is comprised of boiler bladder outer wall, boiler bladder inwall, water inlet, delivery port, it is characterized in that: described water inlet upper limb is lower than the upper plane of boiler bladder housing, filling liquid in boiler bladder housing, when plane reaches water inlet upper limb on liquid, between water inlet upper limb place horizontal plane and boiler bladder outer wall end face, form air seal chamber.

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