1) reheat regenerative cycle,reheating regenerative cycle
再热回热循环
2) reheat
再热
1.
The selection of flue gas reheat methods in the wet flue gas desulfurization;
湿法烟气脱硫工艺中烟气再热方式的选择
2.
In this paper,the causes of(gypsum) scale formation and equipment corrosion,and the problems of flue gas reheat and the oxidation of sulfite pertinent to(separation) of solid from liquid are analyzed.
本文对湿式石灰/石灰石FGD过程中的石膏结垢成因、设备腐蚀原因、烟气再热以及与液固分离等相关的亚硫酸盐的氧化等问题进行了分析,归纳对比了现行技术措施的优缺点。
3) reheat embrittlement
再热脆化
1.
At temperature about 550 ℃,the weld coarse ccrystal region of HCM2S steel exist tendency of reheat embrittlement,however,the sensitive temperature range of reheat embrittlement is waiting to be further studied and determined.
HCM2S钢焊接粗晶区在550℃左右时,存在再热脆化倾向,再热脆化的敏感温度范围需进一步研究确定。
4) reheat crack
再热裂纹
1.
So the crack is reheat crack,it can be .
通过扫描电镜、能谱仪及光学显微镜对裂纹产生原因进行了深入分析,认为该裂纹属高温形成的再热裂纹,可以通过改变预热、后热温度,提高焊接质量以降低应力集中等方法来防治。
2.
The base metal 15CrMoG component and weldability,welding method,welding material,welding structure,technics parameter,welding process and heat treatment were analyzed,the improving welding measure was put forward,which effectively avoided reheat crack and the other welding defects of certain ship boiler pipe.
通过对15CrMoG钢母材成分及焊接性能、焊接方法、焊接材料、焊接结构、工艺参数、焊接操作和热处理的分析,提出了改进的焊接措施,有效地防止了某船锅炉管再热裂纹和其它焊接缺陷的产生。
3.
After analyzing,the source of the welded joint fracture on the sealing structure of the reheater through the penthouse superheater in a 1025t/h boiler is reheat crack which is caused by high rigidity and high stress concentration of the welding joint,excessive welding energy input and heat stress existing in the joint when operating.
分析某发电厂1025 t/h锅炉再热器穿顶密封结构焊接接头的开裂源于再热裂纹,裂纹的产生原因在于:焊接接头高刚度、高应力集中,过大焊接线能量及接头在运行中存在热应力。
5) reheat cracking
再热裂纹
1.
The susceptibility of HCM2S steel to reheat cracking has been studied by y-groove restraint weld cracking tests,which confirm the steel's susceptibility in the temperature range between 690(°C)~760(°C).
通过斜y型拘束焊接试验方法对HCM2S钢的再热裂纹敏感性进行了试验研究。
2.
On the basis of the principles and structures of the cold cracking implant testing machine,the study on the implant equipment of reheat cracking test is reviewed in this paper.
在深入分析冷裂纹插销试验机的原理和结构的基础上,本文进行了插销式再热裂纹试验装置的研究工作。
6) reheater
再热器
1.
Method of non-destructive inspection、analysis and structure improvement for welded joint fracture on the ceiling sealing structure of boiler reheater;
再热器顶棚密封焊缝开裂探伤方法、原因分析及结构改进措施
2.
Study on high temperature steam corrosion of inner tube of superheater and reheater in boiler;
过热器和再热器管内壁的高温水蒸汽腐蚀研究
3.
Analyses on tube failures of low temperature reheater of home made DG1025t/h boiler;
国产DG1025T/H锅炉低温再热器管爆管分析
参考词条
补充资料:回热循环
回热循环
regenerative cycle
hu一re xunhuon回热循环(regenerative eyele)余热被回收,并用于循环自身的一类热力循环。许多热力循环都可以采用回热.其具体实施的原理和方法大同小异(见布雷顿循环)。这里只介绍以兰金循环为基础的回热循环。 为了回热,不妨设想如图(a)所示的一个热力装置系统,在凝汽器中凝结成的液态工质,首先通往汽轮机,以逆流的方式吸收蒸汽的热量,而汽轮机中的蒸汽则一面放热一面膨胀做功。液态工质经吸热温度升高后再通往锅炉,从而减少了工质在凝汽器中的放热量,同时也提高了工质在锅炉中吸热的平均温度,循环效率得到明显的改善。整个循环的T一:图示于图(b)。 实际的回热循环如图(。)所示。它是通过多级回热加热器对液态工质进行逐级加热实现的,只是所利用的不是通过汽轮机的全部蒸汽部分冷凝时所释放的热量.而是从汽轮机的各级抽汽口中抽出的部分燕汽凝结成液体时所释放的热量。 产生 Ikw·h的电能所需的蒸汽量叫做汽耗率,所消耗的热量叫做热耗率.与兰金循环相比,虽然回热.汽..汽.┌─┐│帆││护│└─┘┌─┐│拐││护│└─┘ 回热循环(a)原理;(b)T一:图;(e)技术实施循环的热耗率有显著的降低,汽耗率却显著地提高。热耗率的降低,表明热效率提高了;汽耗率的提高,增加了汽轮机高压级的容积流量,但由于抽汽,却减小了汽轮机低压级的容积流t和蒸汽湿度,有利于中、大型汽轮机效率的提高和工况的改普。 为了使回热循环具有更高的热效率,需要处理好两个间题,一要选择最有利的给水回热加热的最终温度,二要分配好各回热加热级的加热量。这不仅仅是循环效率的问题,需要全面地技术经济权衡,例如回热加热沮度必须与锅炉的余热利用综合考虑。减小回热加热器传热温差、增加加热级数,虽然在理论上对循环效率有利,但却要增大受热面和设备造价。
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