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Front wall heating surface structure of CDQ (Coke Dry Quenching) waste heat boiler

A waste heat boiler and CDQ technology, which is applied to boiler water pipes, etc., can solve the problems of deviating from nucleate boiling of slag condensing pipes, over-temperature burning and explosion of pipes, and affecting the safety of boilers, etc. The method and location are flexible and convenient. , the effect of increasing heat absorption and improving the safety of water circulation

Inactive Publication Date: 2015-07-22
CHANGSHA BOILER PLANT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the layout of the coke CDQ system, generally among the four-wall membrane heating surfaces, the front wall heating surface has the shortest length and the least heat absorption, which is likely to cause water circulation failure
If the tube bundle of the heating surface of the front wall is inserted into the inlet of the waste heat boiler in the form of slag tubes, although the heat absorption of the heating surface of the front wall can be supplemented, the high heat load at the inlet of the waste heat boiler and the high temperature during reburning of the air injection will easily cause Deviating from nucleate boiling in the slag tube and overheating of the tube, burning and bursting
The above two conditions will seriously affect the safety of the boiler

Method used

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  • Front wall heating surface structure of CDQ (Coke Dry Quenching) waste heat boiler
  • Front wall heating surface structure of CDQ (Coke Dry Quenching) waste heat boiler
  • Front wall heating surface structure of CDQ (Coke Dry Quenching) waste heat boiler

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Embodiment 1

[0021] A front wall heating surface structure of a CDQ waste heat boiler, such as figure 1 As shown, including the water-cooled wall section and the transverse flushing section. The water-cooled wall pipes on the heating surface of the front wall extend into the tail flue of the waste heat boiler to form a transverse scour section, which is used to increase the heat absorption of the heating surface of the front wall and improve the safety of water circulation. The pipes in the transverse flushing section are made of light pipes arranged in the form of serpentine pipes. The arrangement of the pipes adopts a combination of horizontal arrangement and 15° inclined arrangement, which has a compact structure and can effectively prevent the stratification of steam and water in the pipe. One end of the transverse flushing section is connected to the water-cooled wall section through an elbow, and the other end of the transverse flushing section is connected to the lower header, whic...

Embodiment 2

[0023] A front wall heating surface structure of a CDQ waste heat boiler, such as figure 2 , as shown in 3, with figure 1 The embodiment shown is similar, the difference is that the horizontal flushing section is arranged horizontally with a single row of finned tubes, which has high heat exchange efficiency and compact structure. One end of the transverse flushing section is connected to the water-cooled wall section through an elbow, and the other end of the transverse flushing section is connected to the lower header, which is arranged close to the rear wall.

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Abstract

The invention discloses a front wall heating surface structure of a CDQ (Coke Dry Quenching) waste heat boiler. In order to solve the problem of water circulation faults of a conventional water-cooled wall of a CDQ waste heat boiler, the front wall heating surface structure of the CDQ waste heat boiler comprises a water-cooled wall section and a lateral washing section; a pipe at the water-cooled wall section extends to the interior of a gas duct at the tail part of a waste heat boiler to form the lateral washing section; the axial line of a pipe at the lateral washing section forms an inclined angle of not larger than 30 degrees with the horizontal plane; and one end of the pipe at the lateral washing section is communicated with the pipe at the water-cooled section, and the other end is fixed on a lower interconnecting box close to a front wall or a rear wall. The pipe on the water-cooled wall of the front wall of the CDQ waste heat boiler extends to the interior of the gas duct at the tail part of the waste heat boiler to form the lateral washing section, so that the heat absorption capacity of the front wall heating surface is increased, and the water circulation safety of the front wall heating surface is improved.

Description

technical field [0001] The invention belongs to the technical field of thermal energy engineering application, and in particular relates to a front wall heating surface structure of a CDQ waste heat boiler. Background technique [0002] The CDQ device has many advantages such as energy saving, consumption reduction, cost reduction, environmental pollution reduction, and improvement of coke quality. The high-temperature circulating gas of the CDQ is cooled by the primary dust collector to the waste heat boiler, and then returned to the CDQ furnace through the secondary dust collector, circulating fan and auxiliary economizer. With the popularization of dry coke quenching technology and the large-scale of coke dry quenching equipment, enterprise decision makers, on the basis of continuously improving their management and operation level, regard improving the steam parameters of waste heat boiler as one of the important measures to save energy, reduce emissions and improve econ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F22B37/10
Inventor 王宇峰邹公平周建国陈树建刘志斌
Owner CHANGSHA BOILER PLANT
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