A post-premixed cold flame combustion coupling matrix tube mode wall structure ultra-low nitrogen combustion equipment

Abstract

The invention relates to a post-premixed cold flame combustion coupling matrix tube mode wall structure ultra-low nitrogen combustion equipment, including a gas control device, an air volume control device, an air mixing device, a cold flame combustion device, a matrix tube and a mode wall device and a comprehensive control The gas control device provides gas for the air-gas mixing device, the air volume control device provides combustion-supporting air for the air-gas mixing device, and the air-gas mixing device performs jet mixing of the combustible gas provided by the gas control device and the combustion-supporting air provided by the air volume control device, and mixes them through the air-gas mixing device After uniformity, it is mixed and injected into the cold flame combustion device. The mixed gas passes through the double-layer rectifying plate, the hexagonal heat pipe type cooling fire resistance tube and the flame cooling tube in the cold flame combustion device in sequence, and then enters the combustion chamber for combustion. After combustion, the high temperature smoke The gas undergoes radiation and convective heat exchange in the combustion chamber, and then discharges into the flue after heat exchange between the matrix tube and the medium in the model wall structure.

Description

technical field [0001] The invention relates to the technical field of clean energy, in particular to a post-premixed cold flame combustion coupling matrix tube mode wall structure ultra-low nitrogen combustion equipment to realize the application of natural gas energy with low power consumption, high energy efficiency and ultra-low nitrogen emission. Background technique [0002] With the development of my country's economy and society, the original energy development model can no longer meet the needs of social development, and the energy utilization form of energy conservation and environmental protection is the current development direction. The national long-term energy development strategy plans to reduce the proportion of coal in primary energy consumption to below 50% by 2030. Data show that from 2006 to 2015, the proportion of global coal and oil consumption decreased by about 2.3 percentage points, while the proportion of natural gas increased by about 1 percentage...

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Problems solved by technology

(4) Nitrogen oxides are also the main cause of acid rain and acid fog. NO and NO2 will form NO3- and H with moisture in the surrounding air +, leading to severe corrosion of metal surfaces

At present, there are three main technical routes for natural gas ultra-low nitrogen combustion: 1) flue gas circulation plus diffusion combustion; 2) metal fabric type premixed surface combustion; 3) porous media type premixed surface combustion; among them, the technical principle of flue gas circulation plus diffusion combustion It is to recover part (10-25%) of the flue gas after combustion and mix it with fresh air to reduce the oxygen concentration of the combustion-supporting air, thereby reducing the reaction intensity and reducing the temperature in the core area to achieve the purpose of low-nitrogen combustion. There are two problems with this technology: 1) After combustion, it passes through the furnace The flue gas volume increases, the blower load increases, the power consumption increases, the furnace back pressure increases, and the output decreases; 2) About 17% of the water vapor partial pressure in the return flue gas will inevitably condense to form condensed water after mixing with cold air, reducing Equipment life, reducing user satisfaction

The premixed surface combustion technology is to increase the combustion area by increasing the excess air coefficient, disperse the concentrated flame into many small flames, reduce the combustion temperature in the core area, and achieve low nitrogen. The disadvantage is that it needs to be equipped with a filter and needs to be replaced regularly. There is a risk of blockage in the process, and there are many technical risks of explosion and deflagration

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