Advanced monitoring system for granular material thermal treatment

Proceedings of the 13th International Carpathian Control Conference (ICCC) Pub Date : 2012-05-28 DOI:10.1109/CARPATHIANCC.2012.6228729

J. Spisak, J. Mikula, D. Nascak, M. Zelko

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引用次数: 2

Abstract

A new advanced monitoring system for granular materials thermal treatment was developed. This system underpinned with a mathematical model of the process consists of tree operational layers: basic control, process control and supervisory control level. Monitoring system is made up of instrumentation, mathematical model, and visualization layers. Instrumentation level was enriched by new types of sensors enlarging measurement possibilities and their precision. Mathematical model is based on first principals. Complex simulation enables to provide forward all required data. The adequacy of real and calculated data is secured by model calibration on measured data. Forward data gained by simulations enables predictive control. Visualisation system is virtual reality based. It enables very effective visual communication with the user. Concept of the monitoring system with visual communication in the virtual reality environment was applied on the rotary furnace for magnesia sintering. Developed visualization system enables spatial presentation, interactivity, user easiness, platform independency and is financially undemanding.

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先进的颗粒材料热处理监控系统

研制了一种新型的先进的颗粒材料热处理监测系统。该系统以过程的数学模型为基础，由三个操作层组成:基本控制层、过程控制层和监督控制层。监控系统由仪器仪表层、数学模型层和可视化层组成。新型传感器的出现丰富了仪器仪表水平，增加了测量的可能性和精度。数学模型以第一原理为基础。复杂的仿真能够提供所有需要的数据。通过对实测数据进行模型校正，保证了真实数据和计算数据的充分性。通过模拟获得的前向数据使预测控制成为可能。可视化系统是基于虚拟现实的。它可以与用户进行非常有效的视觉交流。将虚拟现实环境下可视通信监控系统的概念应用于镁砂烧结转炉。开发的可视化系统实现了空间展示、交互性、用户易用性、平台独立性和低成本。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 13th International Carpathian Control Conference (ICCC)

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