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除氧器水位控制的人-机接口设计研究 被引量:1

Research on Human-Machine Interface Design of Deaerator Water Level Control
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摘要 基于人因工程(HFE)的设计原则,以核电厂二回路主给水除氧器系统为例进行性能需求分析,得到不同层次的静态功能数据库,确定了主给水除氧器系统运行所需的基本信息流及其处理要求。为应对核电厂冷态启动、低负荷和高负荷工况下的操作要求,通过建立给水加热和除氧功能(F01)模块图和运行模式表,明确与控制室有关的功能因素。基于功能分配原则对除氧器水位控制进行研究,实现水位控制的无扰动过渡方案,通过了人-机接口设计验证,为国内开展HFE分析研究提供借鉴。 Based on the principle of human factors engineering HFE, this paper takes the secondary feed water deaerator system of a nuclear power plant as an example to analyze the performance requirements, obtain different levels of static function database, and determine the basic information flow and its processing requirements. In order to meet the operational requirements of the nuclear power plant in the cold start, the low load and high load conditions and the functional factors related to the control room are clarified by establishing the water supply heating and deaeration function(F01) block diagram and operation mode table. Based on the principle of functional allocation, the water level control of the deaerator is studied, and the non-disturbance transition scheme of water level control is realized. It has been verified by human-machine interface design, and provides reference for the human factor engineering analysis in China.
作者 刘晓光 王延华 李勇军 Liu Xiaoguang;Wang Yanhua;Li Yongjun(China Nuclear Power Engineering Co.Ltd.Hebei Branch,Shijiazhuang,050000,China)
出处 《核动力工程》 EI CAS CSCD 北大核心 2018年第5期162-166,共5页 Nuclear Power Engineering
关键词 人因工程(HFE) 功能分析 运行模式 人-机接口 HFE Functional analysis Operation mode Human-machine interface
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