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Penetration type concave-convex blade rotor inside heat exchange pipe

A blade rotor and heat exchange tube technology, applied in the direction of heat exchanger shell, heat exchange equipment, rotating equipment cleaning, etc., can solve the problems of increased fluid resistance, large driving torque, reduced service life, etc., to achieve increased tangential speed and Effects of radial velocity, increasing radial and tangential velocity, and improving the ability of heat transfer enhancement

Inactive Publication Date: 2013-11-27
BEIJING UNIV OF CHEM TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In general, the spiral bond has the following main disadvantages: (1) The bond is a whole, which directly scratches the heat transfer tube and damages the inner wall of the heat transfer tube; (2) When the fluid flows to push the bond to rotate, it requires a large driving torque and consumes more (3) The service life of the bearing used for single-end fixing is short; (4) The effect of field synergy enhanced heat transfer generated by the bond is not significant
But the disadvantage is that when a certain fluid passes through, the rotation speed of the rotor is determined by the helix angle of the screw flight. When the screw flight lead is small, the rotation speed of the rotor is fast, and the resistance to the fluid increases accordingly; in order to facilitate the rotation of the rotor Installation, there is a large distance between the outer diameter surface of the rotor and the inner diameter surface of the heat exchange tube, so the enhanced heat transfer and anti-scaling and descaling capabilities of the rotor are limited to a certain extent.
In addition, the rotor will shake during the rotation process, and the top of the blade will scratch the inner wall of the heat exchange tube, which will also reduce its service life. Therefore, the rotor should have a better centering effect in the heat exchange tube to reduce its friction. The scraping effect with the inner wall of the heat exchange tube prolongs its service life

Method used

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  • Penetration type concave-convex blade rotor inside heat exchange pipe
  • Penetration type concave-convex blade rotor inside heat exchange pipe
  • Penetration type concave-convex blade rotor inside heat exchange pipe

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Embodiment Construction

[0020]As shown in Figure 5, the present invention relates to an implementation method of a through-type concave-convex blade rotor in a heat exchange tube. Two rotors are connected in series through the rotating shaft 12, the limiting member 11 divides the plurality of rotors into several groups of rotor strings, the hanging member 10 is fixed at both ends of the heat exchange tube 9, and the two ends of the rotating shaft 12 are respectively fixed on the hanging member 10, the present invention The rotor is composed of a certain number of helical blades 1 fixed on the surface of the hollow shaft 4. The backwater surface of the helical blades 1 is provided with grooves 6 along the helical direction of the blades; there are holes in the cross-section of the blades, and the holes are arranged along the helical direction of the blades. direction, through the entire blade, to form a through hole 3, the thickness of the through hole formed on the blade is the spoiler shaft 2, and th...

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Abstract

The invention relates to a penetration type concave-convex blade rotor inside a heat exchange pipe. The penetration type concave-convex blade rotor inside the heat exchange pipe is formed by hollow shafts and spiral blades; groove structures are formed in back water sides of the spiral blades along the spiral directions of the blades; holes are formed in cross sections of the blades; the holes extend along the spiral directions of the blades to penetrate the whole blades to form into penetration holes; flow disturbance shafts namely projections are formed by the wall thickness of the penetration holes on the blades. The perturbance of the flow disturbance shafts and the concave-convex fluctuation functions of the grooves which are formed in the back water sides of the blades continuously act on the heat transmission fluid along the facing water sides, so that the radial speed and the tangential speed of the fluid on two sides of the blades are increased and the flow disturbance effect is increased. According to the penetration type concave-convex blade rotor inside the heat exchange pipe, the rotor can play a good self-centering role during rotating in the fluid due to the fact that the fluid has a suspension force function on the penetration holes when flowing through the penetration holes, scrapping between the blade tops and the pipe walls is avoided, the service life of the rotor is prolonged, mass and energy exchange between fluids inside the pipe is greatly enforced due to the separation effect of the penetration holes, and antiscale, descaling and heat transmission reinforcement functions are achieved.

Description

technical field [0001] The invention relates to an interpolation element for enhancing heat transfer and anti-fouling and decontamination in heat exchange tubes used in shell-and-tube heat exchangers, heat exchange reactors and other equipment, in particular to an interpolation element that uses the heat transfer fluid inside the heat exchange tube as the Power, through-type concave-convex blade rotor that realizes self-cleaning and enhanced heat transfer function. Background technique [0002] Energy saving and emission reduction is a key technology that the whole world attaches great importance to. It is applied to many heat exchangers in many fields such as petroleum, chemical industry, thermal power, nuclear power, metallurgy, light industry, aviation devices and marine vehicles, among which the most Shell-and-tube heat exchangers are widely used, but there are common problems of fouling and fouling in the inner walls of these heat exchange tubes, which lead to increased...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F28F9/24F28G3/00
Inventor 杨卫民张震阎华关昌峰丁玉梅
Owner BEIJING UNIV OF CHEM TECH
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