等离子体无油点火燃烧器引弧快,燃烧效率高。
The plasma oil-free ignition burner produces an arc quickly and has high combustion efficiency.
在电站节油技术中,等离子点火技术已经是一项成熟的无油点火技术。
For the oil-saving technology in some power plants, the plasma ignition has already been a mature oil-free ignition technology.
高温空气无油点火技术是一种先进的燃烧技术,具有广阔的应用前景。
High temperature air non-oil ignition is the advanced burning technology with vast prospect.
在电站节油技术中,等离子点火技术已经是一项成熟的无油点火技术。
Present situation and development of tiny-oil ignition technology for power station boiler;
这些大型锅炉燃烧器多布置成对冲形式,启动时也多采用无油点火方式。
Most of these large boiler burners arranges into a hedge form and adopts the oilless ignition mode for startup.
等离子点火装置应用于600MW超临界锅炉上,可以实现无油点火。
Ignition without oil of 600 MW supercritical boilers can be effectuated by using plasma ignition installations.
其中,等离子体无油点火燃烧器具有引弧快、燃烧效率高、适应性广的优点;
Plasma combustion produces electric are quickly, has high thermal efficiency, features extensive adaptability;
等离子点火与稳燃技术作为一种新型、高效、环保的无油点火技术,受到了广泛的关注。
As a new, efficient and environmental ignition technology, plasma ignition and stable combustion technology has received extensive attention.
本文通过研究过量空气系数对炉内火焰的影响规律,指出在煤粉无油点火初期不宜补充大量二次风。
Through experiments of excess air coefficient on the PC combustion in stove, it is concluded that it is no use to add too much air at the beginning of free-oil ignition of PC.
详细研究了在感应式无油直接点火燃烧器点火室中,煤粉气流在着火过程中的机理。
Pulverized coal stream ignition process in a new type of no oil ignition aid burner, which using the method of electromagnetic induction, has been investigated.
对一种新型感应式煤粉锅炉无油直接点火燃烧器进行了试验研究。
A new kind of oil free ignition aid burner for the pulverized coal fired boilers is presented.
为掌握煤粉无油二级直接点火燃烧器内部流动、燃烧特征,进行了试验和数值模拟。
Experiments and numerical simulation are carried out to recognize the exact flow and combustion characteristics in a two-stage oil-less ignition system.
研究表明:煤粉气流在感应式加热无油直接点火器中的着火过程,是交变电磁场与高温壁面加热协同作用的结果。
The results show that: the ignition process is influenced both by the electromagnetic filed and the wall with high temperature;
研究表明:煤粉气流在感应式加热无油直接点火器中的着火过程,是交变电磁场与高温壁面加热协同作用的结果。
The results show that: the ignition process is influenced both by the electromagnetic filed and the wall with high temperature;
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