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一种水泥熟料煅烧过程半实物仿真平台及其仿真方法
Alternative TitleSemi-physical simulation platform and simulation method thereof used in cement clinker calcining process
于海斌; 王卓; 贾洋; 孙朋飞; 陈宜滨
Department信息服务与智能控制技术研究室
Rights Holder中国科学院沈阳自动化研究所
Patent Agent沈阳科苑专利商标代理有限公司 21002
Country中国
Subtype发明
Status有权
Abstract本发明涉及一种水泥熟料煅烧过程半实物仿真平台软件仿真装置、信号转换装置、控制系统、监控装置顺序连接;其仿真方法包括以下步骤:在监控装置所建立的水泥熟料煅烧过程动态模型中输入过程参数并发送至控制系统;控制系统将过程参数输出至信号转换装置,经信号转换装置进行数据转换再输出至软件仿真装置的内存中并存储;软件仿真装置得到虚拟工况参数;将软件仿真装置输出的虚拟工况参数经信号转换装置反馈至控制系统;监控装置接收控制系统的虚拟工况参数并通过人机交互界面进行图形化显示。本发明的建模根据质量、能量守恒和宏观反应动力学基本原理出发,能够从机理的角度描述窑内气固相间的能量和质量交换的动态变化规律。
Other AbstractThe invention relates to a semi-physical simulation platform used in a cement clinker calcining process. According to the semi-physical simulation platform used in the cement clinker calcining process, a software simulation device, a signal conversion device, a control system and a monitoring device are connected in sequence. A simulation method of the semi-physical simulation platform comprises the steps that procedure parameters are input into a cement clinker calcining process dynamic model established by the monitoring device and sent to the control system the procedure parameters are output by the control system to the signal conversion device, data conversion is carried out on the procedure parameters by the signal conversion device, and the procedure parameters are then output to a memory of the software simulation device to be stored the software simulation device acquires virtual working condition parameters the virtual working condition parameters output by the software simulation device are fed back to the control system by the signal conversion device the virtual working condition parameters of the control system are received by the monitoring device and then are displayed through a human-computer interaction interface in an imaging mode. According to the modeling of the semi-physical simulation platform and the simulation method thereof used in the cement clinker calcining process, the dynamic variation rule of in-kiln gas-solid interphase energy and mass exchange is described from the view of mechanisms based on basic principles of mass conservation, energy conservation and macroscopic reaction kenitics.
PCT Attributes
Application Date2013-07-02
2013-11-20
Date Available2015-08-26
Application NumberCN201310275628.8
Open (Notice) NumberCN103399779A
Language中文
Contribution Rank1
Document Type专利
Identifierhttp://ir.sia.cn/handle/173321/14142
Collection信息服务与智能控制技术研究室
Affiliation中国科学院沈阳自动化研究所
Recommended Citation
GB/T 7714
于海斌,王卓,贾洋,等. 一种水泥熟料煅烧过程半实物仿真平台及其仿真方法[P]. 2013-11-20.
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