原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2009年
z2期
288-293
,共6页
马涛%魏利强%张良驹%陈晓明
馬濤%魏利彊%張良駒%陳曉明
마도%위리강%장량구%진효명
10MW高温气冷堆%分散控制系统%分布式网络
10MW高溫氣冷堆%分散控製繫統%分佈式網絡
10MW고온기랭퇴%분산공제계통%분포식망락
10 MW High-Temperature Gas-cooled Reactor%distributed control system%distributed network system
10 MW高温气冷堆(HTR-10)的分散控制系统(DCS)执行对HTR-10的运行监测和控制功能.原DCS在设备可靠性、历史数据存储和转换等方面存在不足.根据HTR-10各工艺系统及控制对象的要求,分析了DCS的系统架构、功能和性能指标等;对I/O通道进行配置;提出以施耐德Quantum 67160系列产品为主要模件的多重冗余硬件平台以及分别以UNITY和iFIX作为系统软件平台和组态工具的配置方案;采用PTO模块完成对棒控和装卸料系统控制,使用智能仪表对交流采样方案进行改进,在通信网络中加设逻辑网关的办法实现第三方通信功能.该设计方案可有效解决HTR-10原DCS存在的问题,满足HTR-10对DCS的要求.
10 MW高溫氣冷堆(HTR-10)的分散控製繫統(DCS)執行對HTR-10的運行鑑測和控製功能.原DCS在設備可靠性、歷史數據存儲和轉換等方麵存在不足.根據HTR-10各工藝繫統及控製對象的要求,分析瞭DCS的繫統架構、功能和性能指標等;對I/O通道進行配置;提齣以施耐德Quantum 67160繫列產品為主要模件的多重冗餘硬件平檯以及分彆以UNITY和iFIX作為繫統軟件平檯和組態工具的配置方案;採用PTO模塊完成對棒控和裝卸料繫統控製,使用智能儀錶對交流採樣方案進行改進,在通信網絡中加設邏輯網關的辦法實現第三方通信功能.該設計方案可有效解決HTR-10原DCS存在的問題,滿足HTR-10對DCS的要求.
10 MW고온기랭퇴(HTR-10)적분산공제계통(DCS)집행대HTR-10적운행감측화공제공능.원DCS재설비가고성、역사수거존저화전환등방면존재불족.근거HTR-10각공예계통급공제대상적요구,분석료DCS적계통가구、공능화성능지표등;대I/O통도진행배치;제출이시내덕Quantum 67160계렬산품위주요모건적다중용여경건평태이급분별이UNITY화iFIX작위계통연건평태화조태공구적배치방안;채용PTO모괴완성대봉공화장사료계통공제,사용지능의표대교류채양방안진행개진,재통신망락중가설라집망관적판법실현제삼방통신공능.해설계방안가유효해결HTR-10원DCS존재적문제,만족HTR-10대DCS적요구.
The distributed control system (DCS) of 10 MW High-Temperature Gas-cooled Reactor (HTR-10) takes charge of operation monitoring and control to HTR-10. The disadvantages of the original DCS at present such as reliability of facilities and history operation data system were introduced. Based on the requirements of technologic systems and control objects, the system architecture, functions and performances were analyzed. The I/O channels configuration was completed. The design scheme which was comprised of the multi-redundancy hardware flat based on Schnieder Quantum 67160 series products, the system software flat by UNITY and the configuration tool by iFIX were presented. The control rods and fuel handling control systems were driven by PTO modules. The AC sampling scheme was modified by adopting intelligent instrument. A specified logical gateway for third-party communication will be developed. The design scheme present in this article can solve the problems and match the demands from DCS of HTR-10.
