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A method for automatic identification of intelligent burner ignition control using alcohol-based fuel conductivity

A fuel conductivity, intelligent control technology, applied in the control of combustion, lighting and heating equipment, etc., can solve the problem of no mutual automatic identification system, pollution of the surrounding environment, alcohol-based fuel flooding, etc., to avoid poisoning pollution and fire hazards, The effect of broad market prospect and simple preparation method

Active Publication Date: 2017-08-11
GUILIN GANLONG ENVIRONMENTAL PROTECTION SCI & TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, whether it is domestic or foreign, the research and application of alcohol-based fuels or smart burners are relatively superficial, and there is no corresponding application of alcohol-based fuels and smart burners. Because there is no mutual automatic identification system, abnormal channels are sub-charged. The proliferation of good alcohol-based fuels, such as damage to smart burners, pollution of the surrounding environment when the fuel is burned, etc., has caused many people to misunderstand the application of alcohol-based fuels and prolong the speed of the promotion and application of alcohol-based fuels

Method used

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  • A method for automatic identification of intelligent burner ignition control using alcohol-based fuel conductivity

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Experimental program
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Effect test

Embodiment 1

[0027] Such as figure 1 As shown, the method of using alcohol-based fuel conductivity to control the ignition and automatic recognition of a smart burner includes the following steps:

[0028] (1) Preset opening conditions: select conductivity electrodes, and preset the upper limit of voltage detection on the electrode sensor controller to 100mV and the lower limit to 1mV;

[0029] (2) Preparation of alcohol-based fuel: Take 0.1g of sodium carbonate, 1mL of water, and 1mL of ethylene glycol, stir continuously for 20 minutes, and mix well, then add 10mL of methanol and 10mL of ethanol, stir well, and then place at a constant temperature of 20-50 In a water bath at ℃, keep stirring for 60 minutes to obtain a liquid volume of 22mL and a conductivity of 1.3×10 -4 ~2.0×10 -4 ms / m alcohol-based fuel, where the amount of salt is 0.45% of the alcohol-based fuel's volume percentage, and the amount of miscibility promoter is 4.5% of the alcohol-based fuel's volume percentage;

[0030] (3) Ins...

Embodiment 2

[0033] Such as figure 1 As shown, the method of using alcohol-based fuel conductivity to control the ignition and automatic recognition of a smart burner includes the following steps:

[0034] (1) Preset opening conditions: select conductivity electrodes, and preset the upper limit of current detection on the electrode sensor controller as 100mA and lower limit as 1mA;

[0035] (2) Preparation of alcohol-based fuel: Take 0.2g potassium chloride, 10mL water, 5mL glycerol, 5mL n-hexanol, and stir continuously for 25 minutes. After mixing well, add 120mL methanol and 20mL ethanol. After stirring, keep it at constant temperature. In a water bath at 20~50℃, keep stirring for 65 minutes to obtain a liquid volume of 160mL and a conductivity of 2.1×10 -4 ~2.5×10 -4 ms / m alcohol-based fuel, in which the amount of salts is 0.13% of the alcohol-based fuel's volume percentage, and the amount of miscibility promoter is 6.25% of the alcohol-based fuel's volume percentage;

[0036] (3) Install the...

Embodiment 3

[0039] Such as figure 1 As shown, the method of using alcohol-based fuel conductivity to control the ignition and automatic recognition of a smart burner includes the following steps:

[0040] (1) Preset opening conditions: select conductivity electrodes, and preset the upper limit of current detection on the electrode sensor controller as 100mA and lower limit as 1mA;

[0041] (2) Preparation of alcohol-based fuel: Take 0.3g sodium carbonate, 0.2g sodium phosphate, 20mL water, 5mL water, 5mL ethylene glycol, 5mL glycerol, 5mL n-hexanol, stir continuously for 30 minutes, and mix well, then add 200mL methanol 、180mL ethanol, after stirring evenly, put it in a water bath at a constant temperature of 20~50℃, keep stirring for 70 minutes, then the liquid volume is 420mL, and the conductivity is 2.3×10 -4 ~3.0×10 -4 ms / m alcohol-based fuel, in which the amount of salt is 0.12% of the alcohol-based fuel volume percentage, and the amount of miscibility promoter is 4.76% of the alcohol-bas...

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Abstract

The invention discloses a method for controlling the automatic identification of ignition of an intelligent burner by using the conductivity of alcohol-based fuel, which belongs to the field of biomass new energy. It includes the following steps: (1) preset opening conditions; (2) preparing alcohol-based fuels with different conductivity; (3) installing conductivity electrode probes and sensor controllers; (4) obtaining detection signals to control the intelligent burner ignition. The present invention adds salts and miscibility additives to alcohol-based fuels to obtain alcohol-based fuels with different conductivity, and controls the ignition of the intelligent burner through conductivity electrode sensing to achieve the purpose of self-automatic identification and control, so that non- Alcohol-based fuels from normal channels do not burn in smart burners, which achieves the purpose of protecting the formula of alcohol-based fuels and the intellectual property rights of burners, and at the same time ensures that alcohol-based fuels from normal channels can be used safely and effectively to avoid poisoning of customers pollution and fire hazard.

Description

Technical field [0001] The invention relates to a method for automatically identifying the ignition of an intelligent burner by using the conductivity of alcohol-based fuel. Specifically, it controls the opening of a solenoid valve through a conductivity sensor of the alcohol-based fuel to control the ignition of the intelligent burner, belonging to biomass New energy field. Background technique [0002] Fuels such as liquefied gas, natural gas, kerosene, coal tar, heavy oil, diesel, gasoline and coal are fossil energy sources, and alcohol-based fuels and biodiesel are non-fossil energy sources. Non-fossil energy is also called biomass energy. Alcohol-based fuels are green and environmentally friendly energy sources with the most complete combustion and the highest heat conversion efficiency. The emissions are mainly water and carbon dioxide. They are the cleanest, most environmentally friendly, and most promising fuels in the future. Alcohol-based fuels are fuels that are main...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F23N5/00
Inventor 陶积勇郝再彬卢昌锐徐庆富
Owner GUILIN GANLONG ENVIRONMENTAL PROTECTION SCI & TECH CO LTD
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