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Super-enthalpy plasma composite combustion-support combustion testing device for normal-pressure and low-concentration combustible gas

A plasma and combustion test technology, applied in the direction of chemical analysis using combustion, can solve the problems of energy consumption, increase the risk of the system, waste and other problems, reduce the super-enthalpy preheating temperature, widen the ignition limit, and improve the combustion effect. Effect

Active Publication Date: 2017-02-22
HUAQIAO UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In terms of widening the gas flammability limit, the main technical means used in the industrial field include hyperenthalpy combustion, catalytic flow combustion, etc., but these methods also have some limitations: for example, hyperenthalpy combustion needs to preheat the combustible gas to 1000 Celsius, not only increases the risk of the system, but also the preheating heat source itself will cause a lot of energy consumption and waste

Method used

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  • Super-enthalpy plasma composite combustion-support combustion testing device for normal-pressure and low-concentration combustible gas
  • Super-enthalpy plasma composite combustion-support combustion testing device for normal-pressure and low-concentration combustible gas
  • Super-enthalpy plasma composite combustion-support combustion testing device for normal-pressure and low-concentration combustible gas

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Embodiment 1

[0033] figure 1 A schematic side view of the structure of an ultra-enthalpy plasma composite combustion-supporting combustion test device at atmospheric pressure and low-concentration combustible gas of the present invention is given, figure 2 It is a schematic diagram of the main structure of the burner in the combustion test device, image 3 It is a side view of the fastening and placement of the burner body.

[0034] Such as figure 1 As shown, a bottle of compressed high-purity combustible gas source 100 and a bottle of compressed air source 101 pass through the combustible gas branch pipeline 104 and the air branch pipeline 105 respectively, and a pressure reducing valve 102 and a mass flow meter are respectively connected in series in sequence. 103. For example, the compressed high-purity combustible gas source 100 selected in this embodiment is a 10-liter 5Mpa high-concentration methane cylinder, the compressed air source 101 is a 30-liter 10Mpa air cylinder, and the ...

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Abstract

The invention discloses a super-enthalpy plasma composite combustion-support combustion testing device for normal-pressure and low-concentration combustible gas. The device mainly comprises gas sources, a combustor and corresponding gas pipelines, wherein the combustor mainly comprises a combustor spray pipe, a quartz pipe, discharge electrodes, an external electrode, a high-voltage power supply and a flow guide plate, the discharge electrodes and the external electrode generate dielectric barrier discharge through the quartz pipe under the action of the additional high-voltage power supply, and plasma is formed in a chamber of the combustor to support combustion; the corresponding gas pipelines mainly comprise a combustible gas pipeline and an exhaust pipeline, the combustible gas pipeline and the exhaust pipeline have a longer attachment section, so that initial temperature of combustible gas is increased, and the super-enthalpy combustion condition is met. According to the device, high-efficiency super-enthalpy combustion and plasma composite combustion support in limited space are realized, combustible limit of combustible gas is broadened while the super-enthalpy preheating temperature is reduced, and the device can be used for combustible limit and combustion performance tests of various combustible gases with low concentration and low heat value.

Description

technical field [0001] The invention relates to the technical field of energy utilization and combustion, in particular to an ultra-enthalpy plasma composite combustion-supporting combustion testing device for low-concentration combustible gas at normal pressure. Background technique [0002] The combustion and utilization of low-concentration combustible gas has been a key research direction in the field of energy and combustion in recent years, and plays a vital role in improving energy utilization efficiency and reducing greenhouse gas emissions. For example, coal mine exhaust gas (also known as exhaust gas, the main component is low-concentration methane, the volume concentration is usually less than 1%, and the lower limit of flammable concentration of methane is about 5%) and rock formations emitted by mining worldwide every year , The accidental overflow and leakage of seabed methane, the greenhouse effect and ozone destruction caused by it have had a serious impact o...

Claims

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Application Information

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IPC IPC(8): G01N31/12
CPCG01N31/12
Inventor 涂然曾怡周学进张认成姜羲
Owner HUAQIAO UNIVERSITY
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