在所有实验工况下,饱和器出口湿空气接近或达到饱和。
Under all experimental conditions the humid air at the saturator outlet approaches or has attained saturation.
介绍了一种对饱和器采用呋喃改性水玻璃混凝土衬里的防腐蚀方法。
An anticorrosion method of using modified water glass concrete lining of furan resin for saturators is introduced.
因此,HAT循环饱和器分析应按实际混合气体模型计算湿空气的焓值。
So the enthalpy must be calculated by the real mixture model when analyzing the humidifier of HAT cycle.
建立了饱和器实验台,对空心饱和器和加填料饱和器进行了对比性实验。
Comparative experiments of spray and packed saturators were performed with a saturator test rig.
该方法将饱和器沿高度方向分解为若干段,每个段用气体和水滴模块表示。
Under this method the saturator has been divided along its height into several segments, each being represented by gas and water-drop modules.
采用控制加热的方法对分流式湿度发生器的增湿饱和器进行精密的温度控制。
The method of precise temperature control by heating to the saturator of divided flow humidity generator was introduced.
还考虑了水气界面水膜热阻对饱和器性能的影响,并提供了水膜热阻的计算方法。
The effect of the water film resistance at air-water interface on the properties of the saturator is taken into account and a method for calculating the water film heat resistance is proposed.
HAT循环是极具发展前途的先进热力循环,其中的增湿饱和器是系统的关键部件。
The HAT cycle is a promising advanced power generation system and the humidifier in the system is a key component.
分析了气体饱和器的工作状态,根据其热力过程建立相应的数学模型,并给出模型的解算方法。
The working state of gas saturator is analyzed, then the corresponding mathematical model is established and the solving method is also given.
基于热质交换原理,设计了一种新型的过热蒸汽饱和器,用于热质交换设备中过热蒸汽的饱和化。
Based on the principle of heat and mass exchange, a new type of superheated steam saturator is designed.
应用该数学模型分析了压力变化对加填料饱和器传热传质的影响,同时讨论了沿加填料饱和器高度方向的传热传质过程。
The influence of the working pressure on the heat and mass transfer was analyzed by this model, and the detailed process was investigated.
在氨饱和器焊接中采用钨极氩弧焊与焊条电弧焊相结合的焊接方法,重视焊前清理和焊接线能量控制,既保证焊接质量又提高生产效率。
Applied GTAW and SMAW to weld Ammonia Saturator with emphasis on preweld treatment and controlling welding heat input, high welding quality and efficiency were reached.
在氨饱和器焊接中采用钨极氩弧焊与焊条电弧焊相结合的焊接方法,重视焊前清理和焊接线能量控制,既保证焊接质量又提高生产效率。
Applied GTAW and SMAW to weld Ammonia Saturator with emphasis on preweld treatment and controlling welding heat input, high welding quality and efficiency were reached.
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