本文还涉及了等离子点火的各辅助系统。
The ancillary systems of plasma ignition are also involved in this paper.
介绍了等离子点火系统的组成、工作原理和应用效果。
The composition, working principles and usage effectiveness of a plasma ignition system are described.
简要介绍了等离子点火机理和等离子发生器工作原理。
Briefly introduced the plasma ignition mechanism, the plasma generator principle of work.
所作的工作对等离子点火器的设计和应用研究具有重要参考价值。
The work the dissertation deals with is important to direct design and application of the plasma ignitor.
建议锅炉设计时采用小油枪点火系统和等离子点火系统相结合方式。
It is recommended that the mode of combining the small oil gun ignition system with the plasma ignition system can be adopted at the time of boiler design.
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.
等离子点火技术有较好的经济及社会效益,能有效降低火电厂生产成本。
Plasma ignition technology better economic and social benefits that can effectively reduce the thermal power plant's production cost.
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.
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.
介绍等离子点火装置的系统构成及工作原理,从运行角度看怎样安全操作等离子点火装置。
The system construction and working principle of plasma ignition device are introduced as well as its safe operation as viewed from running.
针对等离子点火器内三维湍流燃烧流场,采取有限速率化学反应模型,模拟其物理化学过程。
This paper used a finite-rate method to simulate the three-dimensional combustion process in a plasma generator.
分析了等离子点火系统运行中的主要技术问题和零油操作、点火前投电除尘器应注意的主要问题。
The key technologies in operation of plasma ignition system were analyzed; in addition, the precautions for oil-free operation and ESP start-up before ignition were presented.
为此分析了点火过程中一次风速、煤粉浓度、磨煤机出口温度和煤粉细度等对等离子点火的影响。
Meanwhile analysis was made on how primary air, concentration of pulverized coal, mill outlet temperature and pulverized coal fineness affected ion ignition.
等离子点火技术应用于双进双出磨直吹式制粉系统时,能满足等离子点火浓度的技术及运行实况。
Plasma ignition technology is applied to a dual-in dual-out direct-fired system, which satisfied pulverized-coal concentration requirements and practical operating conditions.
介绍了俄罗斯热裂解型等离子点火技术的技术特点、工作原理、应用状况和其等离子枪的结构优点。
In this paper, the technical features, working principles and application of a Russian Thermal-Pyrolysis-Type plasma ignition technology, as well as the associated plasma gun was introduced.
等离子点火技术是一种有效节油锅炉点火,稳燃和调试用油的重要手段,对降低发电成本,节约油资有重大意义。
It can be used to effectively reduce the cost of power generation, saving oil resource and enhancing the energy security.
这些方法可为同类机组设计和使用等离子燃烧器点火提供参考。
These methods provide with reference for design and application of plasma burner ignition on similar type units.
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.
但是由于开展时间短,快点火机制中的许多物理还需要仔细研究,其中超热电子在稠密等离子体中的输运问题就是一个复杂,然而对快点火机制至关重要的物理问题。
But for its short time research, there are lot of physics need to be studied, among which, the transport of relativistic electrons in dense plasmas is an interesting and important subject.
在反场箍缩条件下可允许用强等离子体电流充分加热等离子体到点火温度,而不需要辅助的中性束或射频加热系统。
The high plasma current allowed in a RFP is expected to be sufficient to heat the plasma to ignition without the need of auxiliary neutral-beam or radio-frequency heating.
等离子体点火密闭爆发器定容实验研究表明,通过对电能释放规律的控制,能有效调节火药的点火与燃烧过程。
Experimental results show, the ignition and combustion process of propellant can be effectively modulated by controlling the electric discharge behavior of pulsed power supply.
等离子燃烧器点火对机组DCS逻辑、制粉系统、干除灰系统等有影响。
The igniter has effects on DCS logic, pulverizing and dry ash removal systems of the unit.
此外,准直了的快电子束在等离子体中的能量沉积也具有非常重要的实际意义,如快点火方案中点火热斑的形成等。
Furthermore, the energy deposition of collimated fast electrons in dense plasmas is also very important for some applications, such as in fast ignition.
理论上,研究了等离子体“过热点”点火理论模型,可以对等离子体点火过程进行定性地描述,分析点火过程中的各种效应。
In theoretically, the hot spot model of plasma ignition is studied, it can describe the ignition behaviors at a qualitative level and analyze all sots of effects.
讨论了等离子体能量、点火位置和形状等参数对减阻性能的影响,目前利用激光等离子体技术可以减小70%的波阻。
The influences of plasma parameters such as energy, ignition location and shape on drag performance are reviewed. At present, laser plasma technology can reduce the wave drag by 70%.
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;
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;
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