分析了高温空气燃烧技术的高效低污染特性。
The high efficiency and low pollution characteristics of high temperature air combustion were analyzed too.
目前虚拟仪器技术已被引入高温空气燃烧研究;
Now the virtual instrument technique comes into the heat air combustion research.
系统研究了高温空气燃烧技术改造均热炉的各种方案。
Numerical simulations about applying high temperature air combustion technology to rebuild a cell pit furnace were carried out.
系统研究了高温空气燃烧技术改造均热炉的各种方案。
The paper mainly introduces the technical characteristics of the high temperature air combustion (HTAC) technology.
不应把冷却塔设置在厨房等排风口有高温空气出口的地方。
The cooling tower should not be placed at outlet of high temperature air of kitchen.
建立了一个预测高温空气气化的卵石床气化炉性能的数学模型。
This article establishes a mathematical model to predict the performance of high temperature air pebble bed gasifier.
介绍了高温空气燃烧技术的特点及在韶钢加热炉上的具体应用。
The paper mainly introduces the technical characteristics of the high temperature air combustion(HTAC) technology.
高温空气成份几乎不受四通阀切换瞬间发生器内滞留烟气的影响。
The air component isn't influenced by the residual fume at the switching moment.
对高温空气发生器关键部件的分流装置的结构设计进行了详细阐述。
The structure design of the key component of the high temperature air generator, namely the shunt device, was expatiated in detail.
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.
热工制度上采用了高温烟气回流混合空气助燃方案,实现了高温空气燃烧。
High temperature air combustion is realized by adopting a new flue gas strategy.
蓄热室是蓄热式高温空气燃烧系统实现余热回收和获得高温空气的关键部件。
Regenerators, which recover waste heat and provide high temperature air, are key components of the regenerative high temperature air combustion system.
提出了借助循环流化床在高过剩空气系数下燃烧的技术提供高温空气的新构思。
A new concept of achieving high temperature air by circulating fluidized bed combustion at high excess air ratio was proposed.
高温空气发生器是生物质高温空气气化技术研究的实验研究系统的关键部件之一。
High temperature air generator is one of the critical components of experimental investigation system for study on biomass high temperature air gasification technology.
通过采用线线合成光谱的方法得到激波后不同时刻高温空气中OH分子的转动温度。
The rotational temperatures were determined using fits to synthetic OH molecular spectra at different time behind shock waves.
分析了切换式蓄热燃烧系统的优点与不足,开发了可连续燃烧的自蓄热高温空气燃烧器。
The advantages and disadvantages of switch type regenerative combustion system are analyzed and one self-regenerative high temperature air burner which could continuous combust is developed.
高温空气燃烧技术作为一种全新型燃烧技术,具有大幅度节能和降低污染物排放等优点。
High temperature air combustion technology, as a new combustion technology, has many advantages such as significant energy saving and pollutants reduction.
研究结果可以为高温空气燃烧过程中合理有效地控制蓄热体中交替换热过程提供理论依据。
The theoretical results can also be as the foundation for the reasonable design and effective application of regenerator of high temperature air combustion system.
用热分析天平连续称重法和线性回归分析对高温空气介质下t 91钢氧化动力学进行研究。
The oxidation kinetics of the T91 steel under high-temperature air medium was studied by serial weighing method with thermal analysis balance and linear regression method.
蓄热式高温空气燃烧技术(HTAC)是新一代高效节能、环保技术,而其中的蓄热式蜂窝体是该项技术的关键。
The regenerative HTAC is a new generation technology for high efficient energy- saving and environment protection, in which the regenerative honeycomb is the key one.
介绍了高温空气发生器的工作原理与特点,提出了采用可编程序控制器(PLC)控制四通阀周期切换的控制方案。
The principle and characteristics of the high temperature air generator is introduced. The PLC control project of periodical shift of the cross valve is expounded.
有一种理论说到,当你整桑拿那会你会吸入超过80度的空气,而这样的高温空气能够使感冒或者流感病毒无法存活。
One theory: When you take a sauna you inhale air hotter than 80 degrees, a temperature too hot for cold and flu viruses to survive.
本文论述了蓄热式高温空气燃烧技术在环形炉上应用急待解决的几个问题,并就解决这些问题提出了一些有益的探索。
This paper describes some questions of needing settle meat about appliance HTAC to ladle furnace, And it exceed some beneficial research of settle those questions.
实验研究了高温空气燃烧系统使用的蜂巢蓄热体热回收率、最佳换向时间、流动阻力等性能参数及其随几何尺寸的变化规律;
The heat recovery rate, optimal switching time and pressure drop of honeycomb regenerator used in the high temperature air combustion system were investigated.
高温空气燃烧技术是一项新型的高效低污染燃烧技术,具有节约燃料、提高热应用率、降低NOX排放和减少设备尺寸的特点。
High temperature air combustion (HTAC) is a new combustion technology, which can save fuel, enhance the heat efficiency, decrease emission of NOX and reduce the size of equipment.
介绍一种基于高温低氧空气燃烧的低热值燃料气化炉,其主要部件为高温空气发生器、气化器、余热锅炉和湿式气体净化装置。
A new low-BTU-fuel gasifier based on high-temperature air combustion is proposed. it is made up of high-temperature air generator, gasifier, heat recovery boiler, and wet type gas cleaning equipment.
通过两种结构烧嘴的热态燃烧试验对比,研究了烧嘴结构、燃气射流速度、过量空气系数对高温空气燃烧过程氮氧化物排放的影响特性。
The effects of nozzle structure, fuel gas injection velocity and excess air coefficient on NOx emission in high temperature air combustion were investigated.
提出了采用加热空气介质的高温空气槽测定材料热变形温度(HDT)的方法,通过几种高分子材料在油浴中及高温空气槽中测定HD T值的比较。
The way of heating air by using high temperature-air container was designed for the measurement of the heat deflection temperature (HDT) of polymer materials.
在高温高压下,空气与氧气反应,产生了氮氧化物。
NOx is produced when the nitrogen from the air reacts with oxygen under high engine temperature and pressure conditions.
此外,由于引擎(发动机)外部运动较慢的空气覆盖了高温燃气排出引擎后部时的噪音,“高旁道比”(高涵道比)飞机的噪音指数下降了80%左右。
They are also some 80% quieter because the mass of slower-moving air shrouds the noisy hot gases coming from the rear of the jet.
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