In the spaceflight domain, performance decline of the thermal control coat is key factor which affects the space equipments 'life, so research its 'performance decline rules is very significance.
在航天领域,热控涂层材料性能退化是影响航天器寿命的关键因素之一,因而研究其性能退化规律,对于航天器寿命预测具有非常重要的意义。
The dynamic performance of thermal process control system can be improved significantly through selecting appropriate nonlinear PI controllers.
在热力过程控制系统中,通过选择合适的非线性P I控制器,能使系统的动态性能得到显著改善。
Even though the control device of the heating system works well, insufficient water flow rates can degrade control performance and thermal comfort.
即使供热系统的控制装置运行良好,水的流速不足也能够降低控制性能和热舒适性。
The structure and properties of materials provides the best waterproof control, good thermal insulation and fireproof performance.
材料的这种结构和特性提供了最佳的防水控制,良好的绝热和防火的性能。
This paper designed a multivariable load Optical Preview Control (OPC) system for a thermal power unit, and discussed the effect of preview step number on control performance of the load OPC system.
文章针对单元机组负荷控制的特点,采用最优预见控制(OPC)策略设计了基于多变量预见控制原理的单元机组负荷最优预见控制系统,并讨论了预见步数对控制品质的影响。
It is composed of thermoelectric cooler component, power modules, incubator and control system, it can satisfy the test of thermal and electrical parameters and performance analysis of the device.
实验装置由热电制冷器组件、电源模块、保温箱、测控系统等组成,可以满足热电制冷器的热工、电力参数测量和性能分析。
Phase change thermal control has been widely used in thermal control of electronic devices recently because it has compact structure, reliable performance and energy-saving property.
相变温控因其装置结构紧凑、性能可靠、经济节能等优点近年来被广泛地应用在各类电子设备的温控上。
Accurately measure and control the actual building envelope thermal performance, are also premise and foundation for improving building energy assessment and energy-saving.
准确测量和掌握建筑围护结构的实际热工性能,又是进行建筑节能评估和节能改造的前提和基础。
In order to detect the function, performance and reliability of active thermal control system of a space camera, a simulation testing system to detect the active thermal control system was designed.
为了检测航天相机主动热控系统的功能、性能及可靠性,设计了主动热控仿真测试系统。
The design of high-precision temperature control system is the key to achieve high performance uncooled infrared focal plane thermal imager.
高精度的温控系统是实现高性能非制冷红外焦平面热像仪设计的关键。
The design of high-precision temperature control system is the key to achieve high performance uncooled infrared focal plane thermal imager.
高精度的温控系统是实现高性能非制冷红外焦平面热像仪设计的关键。
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