片语

reburning denitrogen再燃脱硝

reburning chamber再燃烧室

Reburning Techology再燃烧技术

advanced reburning先进再燃

lime reburning白泥煅烧

reburning efficiency再燃率

direct reburning直接再燃

Reburning Technology所谓再燃烧技术

reburning process再燃法

英汉例句

• The heterogeneous mechanisms may be a main contribution to NO reduction using coals as reburning fuel.

  煤粉作为再燃燃料还原NO时，煤焦的异相机理起主要作用。

• The selection of reburning fuels according to fuel specific features and operation factors can achieve the most economic and environmental benefit.

  根据燃料特性和运行因素选取再燃燃料，以取得综合效益的最大化。

• In the reburning zone using lignites as reburning fuels, the heterogeneous mechanisms may be an important contributor to NO reduction.

  褐煤作为再燃燃料时，煤焦的异相还原机理对NO还原起重要作用。

• The law of homogeneous gas ignition temperature(GIT) of pulverized coal particle clusters was investigated on a one-dimensional furnace under reburning conditions with low oxygen concentration.

  在一维炉试验台上研究了煤粉颗粒群在低氧浓度再燃条件下的均相着火规律。

• The respective characteristics and effectiveness of various reburning fuels, such as natural gas, pulverized coal, biomass etc., were analyzed.

  分析比较了天然气、煤粉、生物质以及其他几种燃料再燃技术的特点及脱硝效果。

• The primary oxygen concentration obviously affected NO reduction, especially when the reburning coal and char had bigger size.

  初始氧浓度对煤粉和煤焦再燃还原NO效率均有明显影响，当粒度较粗时这种影响更加显着。

• The variations of main gas volume fractions with initial oxygen volume fraction during pulverized coal reburning were investigated using a one-dimensional flame furnace.

  在一维炉上对煤粉再燃过程中烟气内主要气体体积分数随再燃区初始氧体积分数的变化规律进行了研究。

• Air staging technique is applied in reconstruction project 1 and coal reburning is applied in project 2.

  改造方案1采用空气分级，方案2在1基础上，增加细粉再燃。

• It indicates that the fold smoke wall's shape of firebox and reburning chamber may influence the burn efficiency in the industrial boiler.

  测试结果表明：工业锅炉中，炉内燃烧室与燃烬室之间的折烟墻的形状对炉内燃料燃烧有较大影响。

• Adopting biological wastes as reburning fuel to reduce NO in simulated gas, hot test has been carried out in a small dropper tube furnace.

  在小型滴管炉内进行了采用生物质废弃物作为再燃燃料还原模拟烟气中NO的热态试验。

• The numerical simulation and experimental study on the rule of the NOx reduction in the micronized coal reburning has been done.

  在一维炉上对煤粉再燃过程中烟气内主要气体体积分数随再燃区初始氧体积分数的变化规律进行了研究。

• After a lot of survey and careful design work, a one-dimensional test system with multi-function such as air stage and fuel reburning is built up.

  本文经过大量的调研和仔细的设计、完善，建成了具有空气分级、燃料再燃等多种用途的一维热态试验系统。

• This research conducts a series of industrial tests on coal reburning of a 600 MW pulverized coal boiler firing lignite, which is a part of a coal reburning demonstration project.

  在国内某台燃用褐煤的600MW机组锅炉上进行了煤粉再燃技术示范并进行了工业试验。

• The principles and developments of reburning technology were discussed with the principles described for reburning fuel selection.

  论述了再燃技术的原理及发展，并讨论了再燃燃料的选取原则。

• For the same kind of coal, the effect of temperature on NO_x reduction gets more pronounced with increasing reburning fuel fraction.

  对于同一煤种，再燃还原NO的效果受温度的影响随再燃料比增加而增大。

• When oxygen volume fraction is larger than 7%, the coal reburning process is ineffective for NOx reduction.

  当氧气体积分数大于7%以后，煤粉再燃过程不再具有脱硝效果。

• A 200mw tangentially coal-fired boiler was retrofitted with a micronized coal reburning system and the performance tests were conducted subsequently.

  对某台200MW四角切圆燃烧煤粉炉实施了超细煤粉再燃系统的改造，并进行了现场调试试验。

• Experiments on coal reburning were carried out on an entrained flow reactor.

  在煤粉携带炉上进行再燃实验。

• 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.

  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。

• Ultrafine pulverized-coal contained in the tertiary air was used as the reburning fuel and the oxygen level of the tertiary air was reduced with the use of flue gas recirculation(FGR).

  本文在注蒸汽联合循环和余热锅炉型联合循环的基础上提出了采用烟气再循环和燃烧室回注水的燃气轮机循环，并对其进行了分析和优化。

• For the same kind of coal, with the increase of reburning fuel fraction, temperature had more obvious effect on NO reduction.

  对于同一煤种，再燃还原NO效率受温度的影响随再燃燃料比增加而增大。

• The factors that impact the reburning effectiveness are analyzed, such as the natural gas percentage of boiler heat input, air stoichiometry, reburn zone temperature and residence time etc.

  研究分析了天然气再燃效果的影响因素：包括天然气投入的比例、空气的化学当量比、再燃区的温度、烟气在再燃区的停留时间等。

• Production and reburning process and slagging process are simulate by using 「post-processing」 method.

  的生成和结渣过程的模拟采用「后处理」方法进行研究。

• However, the advanced reburning will need over and above more than 15% of reburning fuel to reach a corresponding denitration efficiency.

  而先进再燃达到相当的脱硝率则需要消耗超过15%的再燃燃料。

• This paper presents the mechanism of reburning technology and analyzes the main influence factors during reburning process.

  本文阐述了再燃烧技术原理，分析了影响再燃烧技术还原过程的主要因素。