Dynamic simulation and optimization approach to construction diversion of hydraulic and hydroelectric projects 被引量：4

Dynamic simulation and optimization approach to construction diversion of hydraulic and hydroelectric projects

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摘要 To solve the engineering and scientific problems in construction diversion and its simulation analysis, a complete scheme is presented. Firstly, the complex constraint relationship was analyzed among main buildings, diversion buildings and flow control. Secondly, the time-space relationship model of construction diversion system and the general block diagram-oriented simulation model of diversion process were set up. Then, the corresponding numerical simulation method and 3D dynamic visual simulation method were put forward. Further, the simulation and optimization platform of construction diversion control process was developed, integrated with simulation modeling, computation and visualization. Finally, these methods were applied to a practical project successfully, showing that the modeling process is convenient, the computation and the visual analysis can be coupled effectively, and the results conform to practical state. They provide new theoretical principles and technical measures for analyzing the control problems encountered in construction diversion of hydraulic and hydroelectric engineering under complex conditions. To solve the engineering and scientific problems in construction diversion and its simulation analysis, a complete scheme is presented. Firstly, the complex constraint relationship was analyzed among main buildings, diversion buildings and flow control. Secondly, the time-space relationship model of construction diversion system and the general block diagram-oriented simulation model of diversion process were set up. Then, the corresponding numerical simulation method and 3D dynamic visual simulation method were put forward. Further, the simulation and optimization platform of construction diversion control process was developed, integrated with simulation modeling, computation and visualization. Finally, these methods were applied to a practical project successfully, showing that the modeling process is convenient, the computation and the visual analysis can be coupled effectively, and the results conform to practical state. They provide new theoretical principles and technical measures for analyzing the control problems encountered in construction diversion of hydraulic and hydroelectric engineering under complex conditions.

作者 ZHONG DengHua LI MingChao HUANG Wei LIU Yong

机构地区 Department of Hydraulic and Hydroelectric Engineering

出处《Science China(Technological Sciences)》 SCIE EI CAS 2009年第7期1990-1998,共9页 中国科学（技术科学英文版）

基金 Supported by the National Basic Research Program of China("973"Program)(Grant No.2007CB714101) the National Key Technology R&D Program in the11th Five year Plan of China(Grant No.2006BAB04A13) the National Science Fund for Distinguished Young Scholars of China(Grant No.50525927)

关键词 construction DIVERSION dynamic simulation optimization analysis BLOCK DIAGRAM HYDRAULIC and hydroelectric PROJECT construction diversion dynamic simulation optimization analysis block diagram hydraulic and hydroelectric project

分类号 TV551.1 [水利工程—水利水电工程]

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参考文献8

1胡志根,范锡峨,刘全,黄河.施工导流系统综合风险分配机制的设计研究[J].水利学报,2006,37(10):1270-1277. 被引量：31
2舒华英,胡志根,刘全.施工截流运输系统的赋时Petri网模型及其仿真实现[J].系统仿真学报,2003,15(11):1501-1505. 被引量：11
3戴会超,王玲玲,朱红兵.三峡工程导截流数值实验室的建立及关键技术(Ⅰ)[J].长江科学院院报,2004,21(5):7-9. 被引量：9
4钟登华,黄伟,朱慧蓉.施工导流过程三维动态可视化图形仿真研究[J].水利水电技术,2004,35(4):33-36. 被引量：2
5石明华,钟登华.施工导流超标洪水风险率估计的水文模拟方法[J].水利学报,1998,29(3):30-33. 被引量：13
6刘东海,钟登华,周锐,李定葵.基于GIS的水电工程施工导流三维动态可视化[J].计算机辅助设计与图形学学报,2002,14(11):1051-1055. 被引量：41
7L.Q Chen,Z. Yingand Z.D. Liang(Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110015, China)(Department of Materials Science and Engineering, Northeastern University, Shenyang 110006, China).A NEW APPROACH TO THE PROBLEM OF GRAIN IMPINGEMENTIN MODELLING RECRYSTALLIZATION TEXTUREDEVELOPMENT[J].Acta Metallurgica Sinica(English Letters),1997,10(4):342-348. 被引量：1
8胡志根,刘全,贺昌海,肖焕雄,周宜红,傅峥,李定葵,郑家祥.基于Monte-Carlo方法的土石围堰挡水导流风险分析[J].水科学进展,2002,13(5):636-638. 被引量：48

二级参考文献41

1姜树海.水库调洪演算的随机数学模型[J].水科学进展,1993,4(4):294-300. 被引量：31
2肖焕雄,韩采燕.施工导流系统超标洪水风险率模型研究[J].水利学报,1993,25(11):76-83. 被引量：13
3肖焕雄,孙志禹.不过水围堰超标洪水风险率计算[J].水利学报,1996,28(2):37-42. 被引量：15
4徐宗学叶守泽.洪水风险率CSPPC模型及其应用[J].水利学报,1988,(9):1-8.
5康凤举.现代仿真技术与应用[M].北京：国防工业出版社,1998..
6Bowden F D J. A Brief Survey and Synthesis of the Roles of Time in Petri Nets[J]. Mathematical and Computer Modeling, 2000, 31: 55-68.
7William G. Bulgren. Discrete system simulation[M]. Prentice-Hall, Inc, Englewood Cliffs, 1982.
8Wakefield Ron R. Petri Nets for simulation and modeling of construction systems[J]. Journal of Construction Engineering and Management, 1997, 123(1): 105-112.
9Peterson James L. Petri net theory and the modeling of systems[M]. Prentice-Hall, Inc, Englewood Ciffs, 1981.
10长江水利委员会.水利水电工程设计洪水计算手册[M].北京:水利电力出版社,1995..

共引文献134

1郑宜枫,孙钧.基坑工程中的可视化分析方法[J].岩石力学与工程学报,2003,22(z1):2390-2395. 被引量：3
2满庆鹏,王要武.建筑施工Petri网建模技术研究[J].中国管理科学,2008,16(S1):409-413. 被引量：1
3吴晓光,田栋芸,李艳秋,朝银银,张岱.基于熵理论的风险分析综述[J].德州学院学报,2012,28(S2):60-62.
4詹世平,周集体.利用GIS进行海水污染物浓度分布的可视化研究[J].大连理工大学学报,2004,44(4):506-509. 被引量：7
5朱振权,乌云娜,庞南生,李存斌.理想点逼近技术在大型水电工程项目风险管理决策中的应用[J].水利水电技术,2004,35(9):120-122. 被引量：2
6李阳,武昌.军用装备维修保障系统面向对象Petri网建模[J].计算机仿真,2005,22(2):38-40. 被引量：5
7贺昌海,李堰洲,王威.施工导流初期戗堤挡水标准风险分析[J].电力标准化与计量,2005,14(1):29-32.
8钟登华,李明超,王刚,刘东海.复杂地质体NURBS辅助建模及可视化分析[J].计算机辅助设计与图形学学报,2005,17(2):284-290. 被引量：18
9李景茹,胡程顺.建设工程项目数字化施工管理[J].基建优化,2005,26(1):39-42. 被引量：20
10郑宜枫.受施工扰动影响土体力学参数的可视化分析方法[J].岩石力学与工程学报,2005,24(11):1960-1965. 被引量：1

同被引文献74

1ZHONG DengHua,CUI Bo,LIU DongHai,TONG DaWei.Theoretical research on construction quality real-time monitoring and system integration of core rockfill dam[J].Science China(Technological Sciences),2009,52(11):3406-3412. 被引量：61
2ZHONG DengHua1, REN BingYu1, LI MingChao1, WU BinPing1 & LI MingChuan2 1 Department of Hydraulic and Hydroelectric Engineering, School of Civil Engineering, Tianjin University, Tianjin 300072, China,2 Ertan Hydropower Development Company, Ltd., Chengdu 610051, China.Theory on real-time control of construction quality and progress and its application to high arc dam[J].Science China(Technological Sciences),2010,53(10):2611-2618. 被引量：18
3钟登华,胡程顺,张静.高土石坝施工计算机一体化仿真[J].天津大学学报（自然科学与工程技术版）,2004,37(10):872-877. 被引量：17
4董哲仁.试论生态水利工程的基本设计原则[J].水利学报,2004,35(10):1-6. 被引量：142
5钟登华,南春辉,宋洋.水电工程施工进度三维动态可视化方法[J].天津大学学报（自然科学与工程技术版）,2005,38(4):322-327. 被引量：15
6WANGZhi-li GENGYan-fen JINSheng.AN UNSTRUCTURED FINITE-VOLUME ALGORITHM FOR NONLINEAR TWO-DIMENSIOAL SHALLOW WATER EQUATION[J].Journal of Hydrodynamics,2005,17(3):306-312. 被引量：17
7钟登华,李明超,王刚,郭享,吴康新.水利水电工程三维数字地形建模与分析[J].中国工程科学,2005,7(7):65-70. 被引量：14
8黄声享,刘经南,吴晓铭.GPS实时监控系统及其在堆石坝施工中的初步应用[J].武汉大学学报（信息科学版）,2005,30(9):813-816. 被引量：50
9钟登华,张成,宋洋.基于可视化仿真的水电工程动态信息管理与控制方法[J].中国工程科学,2006,8(2):80-84. 被引量：3
10钟登华,李明超,刘杰.水利水电工程地质三维统一建模方法研究[J].中国科学（E辑）,2007,37(3):455-466. 被引量：29

引证文献4

1ZHONG GuiLiang,REN BingYu & TONG DaWei Department of Hydraulic and Hydroelectric Engineering,School of Civil Engineering,Tianjin University,Tianjin 300072,China.Study on multi-scheme analysis and evaluation method for concrete sequence placement of high arch dam[J].Science China(Technological Sciences),2011,54(S1):47-53. 被引量：2
2钟登华,王飞,吴斌平,崔博,刘玉玺.从数字大坝到智慧大坝[J].水力发电学报,2015,34(10):1-13. 被引量：119
3聂鹏,胡志根,刘全,王哲鑫,田建海.考虑上游同步建设条件下沙坪一级水电站初期导流风险分析[J].水力发电,2020,46(11):65-68. 被引量：1
4林金波,金生,门亚,丁伟业.水利枢纽导流工程二维数值模拟[J].水道港口,2020,41(6):688-693. 被引量：1

二级引证文献123

1叶复萌,陈辉,向正林,邓刚,李建秋,张延亿.蓄能电站群水工安全监测信息监控平台研发[J].水利水电技术（中英文）,2022,53(S01):396-402. 被引量：4
2钟桂良,徐建江,乔雨,朱永亮,张志豪.混凝土振捣质量智能监控关键技术研究与应用[J].水利水电技术（中英文）,2020(S02):422-426. 被引量：10
3樊启祥,陆佑楣,张超然,李果.金沙江溪洛渡水电站工程建设的技术和管理创新与实践[J].水力发电学报,2020(7):21-33. 被引量：29
4皇甫泽华,武颖利,郭万里.基于多目标优化的黏土心墙坝变形协调分析[J].水力发电学报,2020(6):99-108. 被引量：7
5侯俊行,胡晓兵,张欣,冯子扬.基于物联网技术的灌浆生产管控系统设计[J].人民黄河,2022,44(S01):284-286.
6吴先俊,郭成.基于智能安全帽的大型水电工程安全智能管控技术[J].人民黄河,2021,43(S01):218-220. 被引量：6
7王寅.枕头坝二级水电站泄水建筑物设计研究[J].人民长江,2022,53(S02):86-88. 被引量：1
8REN QingWen,LI Qiang,LIU Shuang.Research advance in failure risk and local strength failure for high arch dams[J].Chinese Science Bulletin,2012,57(36):4672-4682. 被引量：5
9何金平.大坝健康状态综合诊断方法研究进展[J].水电与新能源,2016,30(1):1-6. 被引量：6
10路振刚,王永潭,孟继慧,刘生智,李军治.丰满水电站重建工程智慧管控关键技术研究与应用[J].水利水电技术,2016,47(6):2-5. 被引量：16

1Huang Guo fu, Wu Chao, Zhang Ting State Key Hydraulics Laboratory of High Speed Flows, Sichuan University, Chengdu 610065, P.R.China (Received Oct. 16, 1998).SCALE OPTIMIZATION FOR DISTORTED MODEL ON DIVERSION SYSTEM OF HYDROPOWER STATION[J].Journal of Hydrodynamics,1999,11(3):61-67.
2ZHONG DengHua,LI MingChao,LIU Jie.3D integrated modeling approach to geo-engineering objects of hydraulic and hydroelectric projects[J].Science China(Technological Sciences),2007,50(3):329-342. 被引量：20
3WU ZhongRu,SU HuaiZhi,GUO HaiQing.Risk assessment method of major unsafe hydroelectric project[J].Science China(Technological Sciences),2008,51(9):1345-1352. 被引量：11
4G.S.萨卡里亚.伊泰普工程设计和施工中的风险分析与管理[J].中国三峡建设,2000,7(5):44-49.
5Theoretical Hydrodynamics[J].Journal of Hydrodynamics,2010,22(1).
6王伟,郭红,郑国尉.NEELUM JHELUM水电站工程拦河坝施工导流方案变更与优化[J].水利水电工程设计,2014,33(4):6-8. 被引量：1
7Sun Dongpo,Lu Ruili,Song Yongjun,Yan Jun.Impact of hydroelectric projects on river environment: Analysis of water quality changes in Ningxia Reach of Yellow River[J].Water Science and Engineering,2008,1(2):66-75. 被引量：2
8Liu Quan,Hu Zhigen,Fan Wuyi,Ni Jinchu,Li Qinjun.The scheme optimization on construction diversion with discharge control feature of upstream operational reservoir[J].Engineering Sciences,2012,10(4):61-67.
9Wang Yan-gui and Li Xi-xia( Institute of Water Conservancy and Hydroelctric Power Research(IWHR), 100038, PRC.)( IWHR.).EFFECT OF DIVERSION ON THE LOWER YELLOW RIVER[J].International Journal of Sediment Research,1994,9(3):193-205.
10雷刚,张建民,向丽.导流洞出口体形对下游河道影响的试验研究[J].水力发电,2010,36(12):91-94. 被引量：1

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