[1]聂晓强,刘永阔,艾鑫,等.基于RINSIM仿真平台的汽水分离再热器系统动态仿真[J].应用科技,2020,47(2):93-97.[doi:10.11991/yykj.201905012]
 NIE Xiaoqiang,LIU Youkuo,AI Xin,et al.Dynamic simulation of the moisture separator and reheater system on RINSIM platform[J].Applied science and technology,2020,47(2):93-97.[doi:10.11991/yykj.201905012]
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基于RINSIM仿真平台的汽水分离再热器系统动态仿真(/HTML)
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《应用科技》[ISSN:1009-671X/CN:23-1191/U]

卷:
第47卷
期数:
2020年2期
页码:
93-97
栏目:
核科学技术与应用
出版日期:
2020-03-05

文章信息/Info

Title:
Dynamic simulation of the moisture separator and reheater system on RINSIM platform
作者:
聂晓强 刘永阔 艾鑫 蒋利平
哈尔滨工程大学 核安全与仿真技术国防重点学科实验室,黑龙江 哈尔滨 150001
Author(s):
NIE Xiaoqiang LIU Youkuo AI Xin JIANG Liping
Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University, Harbin 150001, China
关键词:
核能安全汽水分离再热器系系统动态仿真RINSIM气液两相流可压缩流网不可压缩流网流导计算
Keywords:
nuclear safetyMSR systemdynamic simulationRINSIMgas-liquid two-phase flowcompressible flow networkincompressible flow networkconductance
分类号:
TM623.8
DOI:
10.11991/yykj.201905012
文献标志码:
A
摘要:
为了能够实时、准确、全工况地模拟汽水分离再热器系统的工作过程及热力特性,本文采用了RINSIM仿真平台建模方法建立了汽水分离再热器系统的实时动态仿真模型。在此基础上,对建立的模型进行典型稳态工况与动态工况数据分析。结果表明,该系统模型与实际系统特性相吻合,能够准确地反映出系统内部的动态响应特性,验证了模型的准确性与可靠性,满足仿真设计要求。
Abstract:
In order to simulate the working process and thermal characteristics of the Moisture Separator and Reheater (MSR) system in the real-time, accurate and full working condition, this paper adopts the modeling method of RINSIM simulation platform to establish the real-time dynamic simulation model of the moisture separator and reheater (MSR) system. Based on the established model, data of the typical steady operating condition and dynamic operating condition are analyzed. The results show that the system model is consistent with the actual system characteristics, and dynamic response characteristics within the system can be accurately reflected, verifying that the model is accurate and reliable and meet the demand of simulation.

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备注/Memo

备注/Memo:
收稿日期:2019-05-17。
作者简介:聂晓强,男,硕士研究生;刘永阔,男,副教授,博士
通讯作者:刘永阔,E-mail:lyk08@126.com
更新日期/Last Update: 2020-04-21