英语释义

1. to heat (a vapor not in contact with its own liquid) so as to cause to remain free from suspended liquid droplets
superheated steam

2. to heat (a liquid) above the boiling point without converting into vapor

3. the extra heat imparted to a vapor in superheating it from a dry and saturated condition also the corresponding rise of temperature

片语

external superheater外置过热器

immersed superheater沸腾层过热器

suphtr过热器

Primary superheater低温过热器

boiler superheater[动力]

fin superheater鳍片管过热器

superheater platen屏式过热器

horizontal superheater水平式过热器

overheater过热器

superheater pipe[铁路]

interdeck superheater中间蒸汽过热器

英汉例句

• this paper studies the affect of style and speed of load in crease on boiler superheater safety.

  本文对开负荷的方式和速率对锅炉过热器安全性的影响进行了研究。

• in power industry, sa213-t91 steel are widely used in superheater and reheater of utility boiler.

  在动力工程中，大容量、高参数电站锅炉的过热器、再热器大量采用sa213-t91钢。

• in the end of the dissertation, the lifetime of the experimental superheater and reheater tubes that have been used is evaluated by the methods of sress computation and the metallographic tests.

  最后，根据上述持久强度外推分析法、金相试验研究综合评估了截取在役的过热器和再热器管材的寿命。

• herein, the author analyzes the overheating of superheater and puts forward counter-measures.

  文中对锅炉启动时过热器超温现象加以分析研究，提出对策。

• structure sizes of superheater tubes and inside resistance coefficients as well as imbalance thermal loads will result in thermal deviation.

  过热器管子结构尺寸、内部阻力系数及热负荷不均匀，将会产生热偏差。

• the sootblower system shall operate with superheated steam. the steam shall be taken from the superheater outlet piping down-stream of the purchaser's flow element.

  吹灰器系统应与过热蒸汽配合工作。该蒸汽来自买方流量计的过热器出口下游管道。

• measures should be taken to prevent the vertical snake tube from steam binding, iron oxide depositing, and austenite corrosion when superheater is cleaned.

  过热器整体清洗时，应有防止垂直蛇形管产生汽塞、铁氧化物沉淀和奥氏体腐蚀的措施。

• the variation of tube-wall temperature for superheater of a boiler has been discussed.

  对一台锅炉过热器壁温在不同负荷下的变化情况进行了讨论。

• the superheater and reheater overheating occurred in early 300mw, 600mw boilers and their reasons are detailed and analyzed, and the improvement and optimization measure are put forward.

  对早期的300mw、600mw锅炉存在的过热器、再热器超温问题及原因进行了论述和分析，提出了改进、优化措施。

• this paper analyzes forming cause of the oxide skin in low temperature reheater, superheater and condenser, and introduces the measures taken to avoid drop of oxide skin on the basis of experience.

  对低温再热器、过热器、凝汽器内氧化皮形成的原因进行了分析，并根据经验介绍了避免氧化皮脱落所采取的措施。

• on the basic of existing model the pulverizing process and the characteristic of superheater differential pressure were analyzed.

  在现有模型基础上，重点对制粉过程和过热器差压特性进行分析。

• the superheater and reheater on-line metal temperature monitoring technique used a limited number of metal temperature measuring points situated outside of the.

  过热器再热器壁温在线监测技术，可以通过安装少量的炉外壁温测点，实时计算整个管组各部位的金属壁温。

• also analysed was the effect of electrical load and the commissioning of pulverizer exhauster on gas parameter excursion in the high temperature superheater zone.

  同时还分析了电负荷及排粉机投运对高温过热器区域烟气参数偏置的影响。

• by determining corrosion rate of tube top, boiler operating time, annual maintenance time and other factors, the service life of superheater can be evaluated.

  通过确定过热器内管头的腐蚀率、锅炉年内运行时间以及保养时间等要素来估算过热器的使用寿命。

• the leakage failure of superheater happened in boiler no. 1 of a power plant.

  某电厂1号锅炉的高温过热器在运行中发生爆漏。

• pipe explosion in superheater of the boiler would damage the boiler and salt operating.

  锅炉过热器爆管，对锅炉寿命和制盐工艺都是一种摧残和破坏。

• the paper outlines the scheme for modifying the boiler by installing wall-type superheater alongside the waterwall to raise the main steam temperature.

  提出采用在水冷壁四周加装壁式过热器的改造方案，可以提高主蒸汽温度；

• the main reason which causes the breakdown of marine boiler superheater is its inner corrosion, which is taken to be developed from the parts of tube top to entire top, and this leads to leakage.

  鑒于某型舰用锅炉过热器破损的主因在于其内部腐蚀，而破损的主要方式是由管头的溃烂开始直至整个管头烂掉为止，导致管子的胀接松动而漏泄。

• main control methods for intermediate-point superheat degree include water-fuel ratio control, enthalpy control, first-stage superheater spray correction, feedwater mild correction.

  中间点温度过热度控制的主要手段有水煤比控制、焓值控制、一级过热器喷水修正、给水流量微量修正等。