This paper introduces a typical system foe furnace temperature control.
本文介绍一个典型的炉温微机控制系统。
C current is convenient to control the furnace temperature automatically.
直流控制调压便于实现自动控温。
Black body furnace temperature time series prediction model based on BPNN was built.
文章在神经网络的基础上,建立了黑体炉温度时序预测模型。
At present, the mainly method used in glass furnace temperature control is PID control.
玻璃窑炉温度系统现有的控制方法主要是传统的PID控制。
Fuzzy and the single nerve unit control scheme was applied for furnace temperature control.
根据热电偶检定炉温度控制过程的特点和要求,提出了模糊单神经元控制算法。
And the successful application in the resistance furnace temperature control system is obtained.
并在电阻加热炉温度控制系统中获得了成功应用。
The intelligent PID control makes the practical furnace temperature curve well meet with standard ISO834.
采用智能PID控制则使炉膛的实际升温曲线符合ISO 834国际标准升温要求。
The result shows that a optimum strip(SPCC steel) heating curve and a furnace temperature curve be gained.
结果获得了SPCC钢优化的带钢升温曲线和炉温曲线;
The furnace temperature is measured, indicated and auto-controlled through its matching temperature controller.
使用时炉温需通过配套之温度控制器进行测量、指示和自动控制。
Different structures can be made by varying the furnace temperature and using different treatments of the substrate.
通过调整炉温和基底处理方法可以制造不同的结构。
Combine intelligent control technology with parameter identification technology to control glass furnace temperature.
将智能控制技术和参数辨识技术相结合用于玻璃窑炉的温度控制。
The resistance furnace temperature is a time delay system, an internal model PID robust controller is presented in this paper.
针对电阻炉温度被控对象的纯滞后特性,设计了内模pID鲁棒控制器。
In this paper the mathematical models for steady optimum furnace temperature and its dynamic complement algorithm are studied.
本文研究了稳态最佳炉温设定模型及最佳炉温动态补偿算法。
This text introduced a kind of with digital signal processor DSP for core of electric resistance furnace temperature control system.
本文介绍了一种以数字信号处理器DSP为核心的电阻炉温度控制系统。
The furnace temperature control and the after-burning control widely-used for continuous annealer in late years are mainly described.
主要介绍了炉温控制和近年来在连续退火炉中广泛应用的二次燃烧控制。
It is introduced how to build the PID neural network control system, which is applied to the real-time control of furnace temperature.
介绍基于以太网的PID神经网络控制系统的构建及实时控制过程。
To achieve precise control, the PWM mode is used to control the execution component (SSR) to adjust the resistance furnace temperature.
该系统以pwm方式对执行器件(固态继电器)进行调节,实现了对电阻炉温度的精确控制。
The design of the single crystal furnace temperature control system is realized by analog electronic, microcomputer unit control skills.
文中应用模拟电路、微机控制技术实现了对控温精度要求很高的直拉单晶硅炉温度控制系统的设计。
The method of automatic controlling furnace temperature of RE electrolytic furnace with piece microcomputer control technology is presented.
介绍了采用单片微机控制技术,实现熔盐电解炉炉温自动控制的方法。
Figure 1 shows the recommended watt loading for a square inch or square centimeter of radiating surface as a function of furnace temperature.
图1中指出了每平方英寸或者是每平方厘米辐射面积所能负荷的理想能量和熔炉温度的函数关系。
The use of feedforward signal makes the furnace temperature control have the leading decision function and improve the degree of intelligence.
前馈信号的引入使炉温控制具有超前决策功能,提高了智能程度。
Realized of furnace temperature automatic control and improve the precision temperature control. Be provided with important engineering use value.
实现了炉温的自动控制,并提高控温的精度,具有重要的工程应用价值。
The paper introduce the design essentials of furnace temperature and ambience about this carbonization furnace line which is continuum-type for gases.
分析并阐述了连续式双排气体渗碳自动线炉温与气氛均匀性的设计要素。
External heat exchanger is generally used in large-scale circulating fluidized bed boiler to adjust furnace temperature and working material temperature.
大容量循环流化床锅炉通常采用外置换热器来调节炉膛温度和工质温度。
Accurate measurement of the furnace temperature is an important topic for safety and stabilization of the furnace running and optimize the combustion process.
炉膛温度准确测量对于锅炉运行的安全、稳定以及燃烧优化有着很大的意义。
This paper was designed to 8098 microcontroller as the core gas furnace temperature control system, it can achieve data collection, data and alarm pretreatment.
本文设计了以8098单片机为核心的煤气加热炉温度控制系统,它可实现数据采集、数据显示以及报警预处理。
An experiment for measuring the uniformity of furnace temperature was carried out. The results of numerical simulation agree well with the experimental results.
对炉温均匀性进行了实验测量,模拟结果与实验结果吻合较好。
The glass fiber is one kind of performance outstanding inorganic nonmetallic material, and its quality and the glass furnace temperature has the close relation.
玻璃纤维是一种性能优异的无机非金属材料,广泛应用于建材、墙体、绝缘材料、船体、高速公路等建设中。
By controlling suitable furnace temperature, fuel consumption and productivity, the energy consumption and metallic oxidation loss can be reduced to a large extent.
通过控制合适的炉温、燃耗和炉子产量,使炉子的能耗和氧化烧损都大大降低。
The results show that more uniform temperature field could be achieved by arranging the burners staggered up and down, and the uniformity of furnace temperature is improved.
研究结果表明,烧嘴上下交错布置可以获得更加均匀的速度场,从而提高炉温的均匀性。
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