本文论述了一个应用于加热炉计算机控制和优化操作的离散状态空间模型的开发。
The development of the discrete state space models for computer control and operation optimization of reheat furnaces is presented in this paper.
本文阐述了一个基于动态数学模型及启发式优化策略的连续加热炉计算机控制系统的设计与实施。
The design and implementation of reheating furnace computer control system based on the dynamic mathematical model and the heuristic optimization strategy is discussed in this paper.
开发了煤粉加热炉计算机控制策略,该策略不仅能最大程度地节能,而且保证了出钢温度的准确控制。
This paper presents a tactics of computer control of reheating furnace with coal powder. With this tactics, fuel savings are maximized and heating quality is improved.
再加热炉过程控制计算机系统的主要目的是实现生产动态过程控制,跟踪操作记录,同时通过冶金模型进行生产过程优化。
The reheating furnace process computer system goals are mainly dynamic production process control, process operation records tracking, and production process optimization with metallurgy model.
综合分析了近年来加热炉热过程计算机控制的应用情况、技术水平及发展趋势,供该技术的开发和研究者参考。
Based on analyzing synthetically the application and technical status of the computer control of thermal process in reheating furnace, the paper predicts its developing trend.
针对铸件热处理用电加热炉,提出了一种简单易行的计算机控制方案,采用PID系统控制算法,以达到优化并稳定工艺参数及提高产品质量的目的。
For electrical heating furnace a simple and feasible computer control strategy with PID algorithm has been set forth to achieve dynamic optimization and production stability.
每次推钢后通过计算机多次模拟钢坯在加热段和均热段内的加热过程,采用遗传算法选出最优的加热炉炉温和推钢时间。
The heating process inside the furnaces of the billets can be simulated multiply times by computes and best control parameters of the furnaces can be determined.
系统由具有循环冷却装置的加热炉、检测系统、温度控制系统、微型计算机和打印机五部分组成。
This system consists of five parts: heating furnace with circulation cooling device, detection system, temperature control system, microcomputer and printer.
加热炉内装有加热元件和测温元件,它们划分为一定数目的区域,各区温度由计算机进行单独控制。
Built with heating elements and furnace temperature measurement devices, they are divided into a certain number of regions, districts individually temperature controlled by a computer.
利用该系统可全面系统地模拟环形加热炉的实际生产过程,准确预测主要热工参数随加热时间的变化规律,为实现计算机优化控制奠定了理论基础。
This numerical simulation system can not only simulate the practical situation totally and systematically, but also predict the practical situation in annular furnace. The research lays…
利用该系统可全面系统地模拟环形加热炉的实际生产过程,准确预测主要热工参数随加热时间的变化规律,为实现计算机优化控制奠定了理论基础。
This numerical simulation system can not only simulate the practical situation totally and systematically, but also predict the practical situation in annular furnace. The research lays…
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