NUMERICAL SIMULATION OF ICE CONTROL EFFECT OF SOLAR ENERGY ON TIBETAN CHANNELS 被引量：2

NUMERICAL SIMULATION OF ICE CONTROL EFFECT OF SOLAR ENERGY ON TIBETAN CHANNELS

导出

摘要 With the Tanghe Diversion Channel in Tibet as an example, the theoretical study on the ice control effect of the solar sacks was conducted based on the previous study. The numerical simulation method was adopted and a one-dimensional numerical model for ice crystal in diversion channels in high-altitude cold regions was developed in this article. The heat transfer through the air-water interface and the mass transfer between ice and water were considered in the model. The model was validated by the field observation data on the diversion channel of the Tanghe Hydropower Station. The results show that the ice control effect of the solar sacks is obvious in the channel with large mass flow rate in the high-altitude cold regions. With the Tanghe Diversion Channel in Tibet as an example, the theoretical study on the ice control effect of the solar sacks was conducted based on the previous study. The numerical simulation method was adopted and a one-dimensional numerical model for ice crystal in diversion channels in high-altitude cold regions was developed in this article. The heat transfer through the air-water interface and the mass transfer between ice and water were considered in the model. The model was validated by the field observation data on the diversion channel of the Tanghe Hydropower Station. The results show that the ice control effect of the solar sacks is obvious in the channel with large mass flow rate in the high-altitude cold regions.

作者 AN Rui-dong CHEN Ming-qian LI Ran Banjiuciren SHI Yun-qiang

机构地区 State Key Laboratory of-Hydraulics and Mountain River Engineering Rikaze Water Conservancy Institute of Tibet Tibtan Weather Bureau

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2007年第3期342-348,共7页 水动力学研究与进展B辑（英文版）

基金 Project supported by the National Natural Science Foundation of China (Grant No.50469002).

关键词 solar energy solar sack ice control diversion channel numerical simulation solar energy, solar sack, ice control, diversion channel, numerical simulation

分类号 TK513 [动力工程及工程热物理—热能工程]

引文网络
相关文献

参考文献5

1班久次仁,曹叔尤,李然,刘兴年.西藏水电站太阳能防冰新探索[J].中国农村水利水电,2003(6):22-24. 被引量：5
2Li Zhi jun, Li Guang wei, Shen Zhao wei, Wang Yong xue, Qu Yue xia State Key Laboratory of Offshore and Coastal Engineering, Dalian University of Technology, Dalian 116024, China.PHYSICAL PROPERTIES AND ELASTIC MODULUS OF DUT-1 MODEL ICE[J].Journal of Hydrodynamics,2003,15(5):98-102. 被引量：3
3茅泽育,陈长植.河床与水体热交换的数值计算[J].水利水电技术,1999,30(5):11-13. 被引量：10
4曾平,段杰辉,黄柱崇,倪浩清.二维流冰消融数学模型[J].水利学报,1997(5):15-22. 被引量：7
5隋觉义,方达宪,汪德胜.水内冰冰塞堆积演变的研究[J].水利学报,1994,26(8):42-47. 被引量：10

二级参考文献26

1隋觉义,方达宪.江河冰塞糙率的分析研究[J].水利学报,1993,25(8):10-18. 被引量：11
2李志军,王永学.渤海海冰工程设计特征参数[J].海洋工程,2000,18(1):61-64. 被引量：29
3隋觉义,方达宪,汪德胜.水内冰冰塞堆积演变的研究[J].水利学报,1994,26(8):42-47. 被引量：10
4俞佐平.传热学[M].北京:高等教育出版社,1998,3.. 被引量：2
5BEITAOS S , WONG J and MOODY W. A model material for river ice breakup studies[A]. Proceedings of the IAHR 10th International Symposium on Ice[C].Espoo, Finland, International Association for Hydraulic Research, 1990, 1: 575-585. 被引量：1
6CRAIG R F. Soil mechanies[M]. New York: Van Nostrand Reinhold, 1983, 6-7. 被引量：1
7LI Zhijun, RISKA K. Index for estimating physical and mechanical parameters of model ice[J]. Journal of cold Regions Engineering,2002, 16(2) :72-82. 被引量：1
8TIMCO G W. Second report of the IAHR working group on ice modelling materials[A]. Proceedings of the IAHR 11th International Symposium on ICE[C]. Alberta, Canada, International Association for Hydraulic Regsearch , 1992, 3:1527-1536. 被引量：1
9TIMECO G W. On the test methods for model ice[J].Cold Regions Science and Technology, 1981, (4): 245-253. 被引量：1
10孙肇初，1990年被引量：1

共引文献29

1蔡加熙,冯劲梅,丁业凤.湖水源热泵变流量系统建模仿真研究[J].暖通空调,2022,52(S01):272-278.
2徐月平,张晓峰,张兵,上官志洪,沙向东.核电厂温排水融冰预测及影响评估[J].环境科学与技术,2012,35(S2):330-333. 被引量：1
3张志学.明渠冬季输水可行性分析——基于新疆某小型引水工程[J].水利科技与经济,2013,19(8):65-66. 被引量：2
4孙凤环,李萍.西藏太阳能开发利用的前景与展望[J].西藏科技,2004(11):16-17. 被引量：4
5张运良,林皋,王永学,李志军,李广伟.动冰力时域识别方法的试验验证[J].中国海洋平台,2005,20(1):7-11.
6脱友才,邓云,梁瑞峰.山区水库水面气温与太阳辐射的修正及应用[J].应用气象学报,2009,20(2):225-231. 被引量：4
7赵坚,刘金祥,丁高.地表水地源热泵水温模型与水温模拟分析[J].暖通空调,2009,39(10):33-36. 被引量：8
8赵坚,刘金祥,丁高.地表水源热泵水温模型及水体供冷能力分析[J].太阳能学报,2009,30(10):1378-1382. 被引量：10
9穆祥鹏,陈文学,崔巍,郭晓晨,王琦.长距离输水渠道冰期运行控制研究[J].南水北调与水利科技,2010,8(1):8-13. 被引量：22
10李志军,贾青.冰对水工结构物作用力的物理模拟——Ⅱ.DUT-1模型冰物理和力学性能[J].黑龙江大学工程学报,2011,2(2):1-7. 被引量：3

同被引文献21

1肖建民,金龙海,谢永刚,霍跃东.寒区水库冰盖形成与消融机理分析[J].水利学报,2004,35(6):80-85. 被引量：40
2邓云,李嘉,罗麟.河道型深水库的温度分层模拟[J].水动力学研究与进展（A辑）,2004,19(5):604-609. 被引量：46
3ZHANG Shu-tao,WANG Dao-zeng.AN OPTIMIZATION METHOD OF AQUATIC ENVIRONMENTAL CAPACITY FOR TIDAL RIVER NETWORK[J].Journal of Hydrodynamics,2006,18(2):237-242. 被引量：2
4詹杰民,吕满英,李毓湘,江洧.一种高效实用的河网水动力数学模型研究[J].水动力学研究与进展（A辑）,2006,21(6):685-692. 被引量：13
5ZHOU Yi-lin TANG Hong-wu LIU Xiao-hua.A SPLIT-CHARACTERISTIC FINITE ELEMENT MODEL FOR 1-D UNSTEADY FLOWS[J].Journal of Hydrodynamics,2007,19(1):54-61. 被引量：8
6韩延成,高学平,涂向阳,张晨.基于CMAC神经网络的自适应渠道输水自动控制研究[J].灌溉排水学报,2007,26(2):76-79. 被引量：6
7MU Jin-bin ZHANG Xiao-feng.REAL-TIME FLOOD FORECASTING METHOD WITH 1-D UNSTEADY FLOW MODEL[J].Journal of Hydrodynamics,2007,19(2):150-154. 被引量：15
8ZHANG Ming-liang SHEN Yong-ming.STUDY AND APPLICATION OF STEADY FLOW AND UNSTEADY FLOW MATHEMATICAL MODEL FOR CHANNEL NETWORKS[J].Journal of Hydrodynamics,2007,19(5):572-578. 被引量：14
9Bautista E,,Clemmens A J,Strelkoff T.Comparison of numerical procedures for gate stroking[].Journal of Irrigation and Drainage Engineering ASCE.1997 被引量：1
10Buyalski C P,Ehler D G,Falvey H T et al.Canal systems automation manual[]..1991 被引量：1

引证文献2

1郝红升,邓云,李嘉,李克锋.冰盖生长和消融的实验研究与数值模拟[J].水动力学研究与进展（A辑）,2009,24(3):374-380. 被引量：7
2DING Zhiliang WANG Changde TAN Guangming GUAN Guanghua.Deadbands and the Dynamic Response and Performance of Large Water Transfer Canal System[J].Journal of Northeast Agricultural University(English Edition),2009,16(2):58-65. 被引量：2

二级引证文献9

1徐国宾,李大冉,黄焱,赵新.南水北调中线输水工程若干冰力学问题试验研究[J].水科学进展,2010,21(6):808-815. 被引量：16
2闫慧荣,刘文涛,冯民权,闵涛.水库冰冻期冰内温度的模拟[J].武汉理工大学学报（信息与管理工程版）,2010,32(5):738-741. 被引量：6
3丁志良,余启辉,杨哲江.大型输水渠道运行仿真系统控制周期选取[J].河海大学学报（自然科学版）,2010,38(6):614-619. 被引量：2
4DING Zhiliang,WANG Changde,XU Duo,XIAO Hua.Research on Controlled Volume Operation Method of Large-scale Water Transfer Canal[J].Journal of Northeast Agricultural University(English Edition),2011,18(3):47-59.
5滕晖,邓云,黄奉斌,脱友才.水库静水结冰过程及冰盖热力变化的模拟试验研究[J].水科学进展,2011,22(5):720-726. 被引量：11
6刘晓燕,崔晓琳,王露,王忠华,刘立君.长方体胶凝原油在热水中的融化实验[J].当代化工,2016,45(3):532-534. 被引量：1
7石慧强,冀鸿兰.水塘静水冰生消过程及冰盖演变的原型试验[J].水利水电科技进展,2016,36(4):25-30. 被引量：2
8冀鸿兰,石慧强,牟献友,脱友才.水塘静水冰生消原型研究与数值模拟[J].水利学报,2016,47(11):1352-1362. 被引量：9
9汪恩良,解飞,韩红卫,富翔,薛增辉.静冰生消室内模拟试验研究及关键参数确定[J].东北农业大学学报,2019,50(6):77-85. 被引量：2

1家庭节能36计[J].科技文萃,2005(9):15-18.
2倪明龙,陈亚平,董聪,吴嘉峰.Numerical simulation of heat transfer and flow of cooling air in triangular wavy fin channels[J].Journal of Central South University,2014,21(7):2759-2765. 被引量：3
3金德才.二滩水电站水轮机模型试验简介[J].四川水力发电,1999,18(2):64-67. 被引量：2
4吴伟,杜建华,王补宣.Boiling Heat Transfer on Porous Surfaces with Vapor Channels[J].Tsinghua Science and Technology,2002,7(2):209-212. 被引量：1
5Yu, Ming, Huang, Rongqing, Lou, Yutao.DYNAMIC DESIGN OF INTERNAL COMBUSTION ENGINE BLOCK STRUCTURE[J].Chinese Journal of Mechanical Engineering,1998,11(1):39-43.
6赵绪新,szu.edu.cn,钱诗智,陆继东.气固流化床中流动特性的数值模拟[J].深圳大学学报（理工版）,2000,17(1):80-84. 被引量：6
7Zhang, Zhi-Jun, Cheng, Hui-Er, Tang, Yu-Hao.Experimental Investigation on Heat Transfer Enhancement in Composite Porous Media[J].Journal of Hydrodynamics,2002,14(2):116-120.
8Senkal Caner Shuichi Torii.Thermal Fluid Flow Transport Characteristics in Confined Channels with Two Dimensional Dual Jet Impingement[J].材料科学与工程（中英文A版）,2011,1(5X):648-657.
9甄利玲.中长期电力负荷预测的回归模型及其应用[J].雁北师范学院学报,2002,18(5):54-56. 被引量：10
10贯彻中央决策部署落实五大发展理念[J].中国电业,2016,0(5):1-1.

Journal of Hydrodynamics

2007年第3期

浏览历史

内容加载中请稍等...