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.
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.
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.
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.
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.
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.
举例来说,一项技术是通过风能将地下洞穴内的空气压缩产生电能;将空气输送至燃气涡轮机以提高燃烧功效。
One, for instance, uses power produced when the wind is blowing to compress air in underground chambers; the air is fed into gas-fired turbines to make them run more efficiently.
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.
本文以神木烟煤和阳泉贫煤为试验对象,在一维火焰炉上对其进行了空气分级燃烧技术模拟试验研究。
The Shenmu bituminous and Yangquan lean coal are tested, the research of air staged combustion technology tes is executed in the one-dimensional flam furnace.
超细煤粉再燃和空气分级是两种典型的炉内燃烧脱硝技术,具有脱硝率较高,经济性较好的特点。
Micronized coal reburning and air staging are two kinds of typical in-furnace NO_x reduction technologies with advantages of high NO_x reduction efficiency and cost effective feature.
介绍了蜂窝体空气蓄热式燃烧技术在唐钢热轧薄板厂1810生产线辊底炉B线横移车上的应用和效果。
This article introduces the use and effect of air honeycomb regenerator at B shuttle of tunnel furnace 1810 product line of Tanggang steel company.
由于采用了上述技术方案,本发明具有使空气和煤气混合效率高,燃烧时火焰长度短、火焰截面积大的优点。
The invention adopting the technical scheme has the advantages of high mixing efficiency between air and gas, short flame length during the combustion and large section surface of flame.
以燃料和空气混合物为工质的燃烧反应性电弧等离子体在燃烧技术和等离子体技术中都有广泛的应用前景。
Electric arcs in combustible gas mixtures, as a high temperature source in combustion and plasma technology, have a great deal of advantages in comparison with those in noble gases.
并且通过试验的方法,着重探讨了通过调整过量空气系数来使锅炉燃烧达到优化的低氧燃烧技术。
And by means of testing, the thesis puts emphasis upon the study of the low-oxygen combustion technique, which can optimize boiler's combustion by adjust the excess air factor.
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.
这是因为MTBE是一种具有许多技术优势的复合物,它可以帮助生产高质量,低燃烧污染的汽油,从而改善空气质量。
This is because MTBE is a compound with a lot of technical advantages, that help produce quality, clean-burning gasoline which leads to improved air quality.
全氧燃烧技术是在玻璃熔制过程中用纯氧代替空气作为助燃气体,与燃料进行燃烧的一种高效强化燃烧技术。
The oxy-fuel firing technology used in glass furnace is a very high efficency combustion technology that in the process of glass melting air is taken place by pure oxygen to improve fuel burning.
指出燃料灰分含量的高低、燃烧器雾化质量好坏、燃烧空气温度的高低及操作人员的技术水平的高低都是影响灰垢生成量的主要因素。
It is pointed out that the soot volume depends greatly upon ash content in the fuel, the performance of burner nozzle, air temperature, and burning operation.
顶燃式空气、煤气自身双预热热风炉采用了顶燃式燃烧器热风炉专利的燃烧器技术和高温旁通烟道技术。
The top-firing air and gas self-preheating hot blast stove adopts a patented burner and high blast temperature bypass flue.
顶燃式空气、煤气自身双预热热风炉采用了顶燃式燃烧器热风炉专利的燃烧器技术和高温旁通烟道技术。
The top-firing air and gas self-preheating hot blast stove adopts a patented burner and high blast temperature bypass flue.
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.
顶燃式空气、煤气自身双预热热风炉采用了顶燃式燃烧器热风炉专利的燃烧器技术和高温旁通烟道技术。
The top-firing air and gas self-preheating hot-blast stove adopts a patented burner and high blast temperature bypass flue.
顶燃式空气、煤气自身双预热热风炉采用了顶燃式燃烧器热风炉专利的燃烧器技术和高温旁通烟道技术。
The top-firing air and gas self-preheating hot-blast stove adopts a patented burner and high blast temperature bypass flue.
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