Wastewater composite heat carrier generator and composite heat carrier generation method

A technology of composite heat carrier and production method, which is applied in the direction of steam generation, mining fluid, earthwork drilling, etc., can solve the problems of discharge, waste water difficulty, and affecting the service life of the combustion chamber, so as to improve the service life, prolong the service life, and prevent The effect of high temperature ablation

Active Publication Date: 2018-02-23
CNPC GLOBAL SOLUTIONS LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The high-temperature combustion in the combustion chamber of the generator releases combustion heat and heats the wastewater in the steam chamber. As the temperature of the wastewater rises, the calcium and magnesium ions in the wastewater will form scale on the outer wall of the combustion chamber. When the scale is not easy to peel off, it will affect the performance of the combustion chamber. Thermal conductivity, which affects the service life of the combustion chamber
[0004] The generators in the prior art cannot effectively solve the fouling problem after the waste water is gasified, and the fouling of the waste water is difficult to discharge from the generator

Method used

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  • Wastewater composite heat carrier generator and composite heat carrier generation method
  • Wastewater composite heat carrier generator and composite heat carrier generation method
  • Wastewater composite heat carrier generator and composite heat carrier generation method

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Embodiment approach 1

[0039] like Figure 1 to Figure 4 As shown, the present invention provides a waste water composite heat carrier generator 4, which includes a generator body 42, a generator head structure 20 and a water magnetization device 5, wherein: the generator body 42 includes a combustion chamber 41 and is sleeved in the The steam chamber 43 outside the combustion chamber 41, the upper end of the combustion chamber 41 communicates with the steam chamber 43, and the upper end of the steam chamber 43 is connected with an outlet pipe 431; the generator head structure 20 is connected to the generator The lower end of the generator body 42, the generator head structure 20 has a head body 2 and a combustion nozzle 10 and an ignition electrode 3 arranged in the head body 2, and the combustion nozzle 10 and the ignition electrode 3 are both Set opposite to the combustion chamber 41, the head body 2 is provided with a water inlet channel 28 and a scale removal channel 29 communicating with the s...

Embodiment approach 2

[0056] like Figure 1 to Figure 4 As shown, the present invention also provides a composite heat carrier production method of a waste water composite heat carrier generator. The composite heat carrier production method is the composite heat carrier production method of the wastewater composite heat carrier generator in Embodiment 1. The structure, working principle and beneficial effects of the composite heat carrier generator are the same as those of Embodiment 1, and will not be repeated here. Described composite heat carrier production method comprises the steps:

[0057] a) Inject waste water into the water inlet pipeline 51 of the water magnetization device 5, after the waste water is magnetized by the water magnetizer 52 of the water magnetization device 5, it is injected into the generator body 42 through the water inlet channel 28 of the generator head structure 20 in the steam chamber 43;

[0058] b) Open the ignition electrode 3, inject fuel into the combustion cha...

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Abstract

The invention provides a waste water composite heat carrier generator and a composite heat carrier generation method. The waste water composite heat carrier generator comprises a generator body, a generator head structure and a magnetizing assembly. The generator body comprises a burning chamber and a steam chamber arranged outside the burning chamber in a sleeving manner, the upper end of the burning chamber is communicated with the steam chamber, and the upper end of the steam chamber is connected with an outlet pipe; the generator head structure is connected to the lower end of the generator body, and is provided with a head body, a burning spraying nozzle and an ignition electrode, the burning spraying nozzle and the ignition electrode are arranged in the head body and are arranged opposite to the burning chamber, and the head body is internally provided with a water inlet channel and a dirty discharging channel which are communicated with the steam chamber; and the magnetizing assembly is provided with a water inlet pipe, the exterior of the water inlet pipe is sleeved with a water magnetizer, and the water inlet pipe and the water inlet channel are connected. According to the waste water composite heat carrier generator and the composite heat carrier generation method, by means of the water magnetizing assembly, waste water led into the generator can be subject to water magnetizing treatment, scaling of the waste water is relatively loose, and the scaling is convenient to discharge.

Description

technical field [0001] The invention relates to a generator and a method, in particular to a waste water composite heat carrier generator and a composite heat carrier method in the field of high-pressure combustion technology. Background technique [0002] Multivariate thermal fluid technology Thermal exploitation of heavy oil is a very efficient new technology, which has the advantages of high combustion efficiency, zero carbon injection, environmental protection and energy saving. Well productivity and enhanced oil recovery. [0003] Multi-element thermal fluid technology is used in oil sand mining, and its core equipment is the generator. At present, in order to realize low-cost thermal power development of crude oil, waste water is required for the cooling water input into the generator. The high-temperature combustion in the combustion chamber of the generator releases combustion heat and heats the wastewater in the steam chamber. As the temperature of the wastewater r...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F22B13/00F22B37/54E21B43/24
CPCE21B43/24F22B13/00F22B37/54
Inventor 吴耀文梅立新李国诚陈龙陆峰司军涛朱伟宋宇波梅奕中李兴儒徐梁张建忠
Owner CNPC GLOBAL SOLUTIONS LTD
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