| [1] |
于姝雯, 万新斌, 杨卫英. 基于压缩空气方案的船舶压排载系统设计及优化[J]. 舰船科学技术,2023,45(1):64−69 (in Chinese)
Yu S W, Wan X B, Yang W Y. Optimal design of the ship compressed air ballast/deballast system[J]. Ship Science and Technology,2023,45(1):64−69
|
| [2] |
江山, 张京伟, 吴崇健, 等. 通海阀内流场的三维数值模拟[J]. 中国舰船研究,2009,4(2):37−41 (in Chinese)
Jiang S, Zhang J W, Wu C J, et al. Three dimensional numerical simulation of flow fields inside sea suction valve[J]. Chinese Journal of Ship Research,2009,4(2):37−41
|
| [3] |
崔红力, 刘兴玉, 张新奇, 等. 通海阀内流场三维数值模拟及优化设计研究[J]. 国防制造技术,2018(2):31−35,30 (in Chinese)
Cui H L, Liu X Y, Zhang X Q, et al. Research on three-dimensional numerical simulation and optim-al design of flow field in sea valve[J]. Defense Manufacturing Technology,2018(2):31−35,30
|
| [4] |
董自虎, 李超. 某船用通海阀流道优化仿真分析研究[J]. 舰船电子工程,2016,36(12):95−100 (in Chinese)
Dong Z H, Li C. Marine valve flow optimization simulation analysis and research[J]. Ship Electronic Engineering,2016,36(12):95−100
|
| [5] |
白宗良, 段晨, 孙瑞康, 等. 潜艇通海阀内流场仿真与优化设计[J]. 舰船科学技术,2016,38(3):41−44,49 (in Chinese)
Bai Z L Duan C, Sun R K, et al. Numerical simulation of flow fields inside sea suction valve and optimization of the flow channel[J]. Ship Science and Technology,2016,38(3):41−44,49
|
| [6] |
刘少刚, 刘海丰, 舒海生, 等. 一种内支架结构对通海阀噪声的影响[J]. 海军工程大学学报,2013,25(2):35−39,45 (in Chinese)
Liu S G, Liu H F, Shu H S, et al. Effect of structure of stend on noise of outboard valve[J]. Journal of Naval University of Engineering,2013,25(2):35−39,45
|
| [7] |
刘少刚, 刘海丰, 舒海生, 等. 通海阀内流道优化降低流噪声[J]. 哈尔滨工程大学学报,2013,34(4):511−516 (in Chinese)
Liu S G, Liu H F, Shu H S, et al. Flow noise reduction of outboard valves based on internal flow path optimization[J]. Journal of Harbin Engineering University,2013,34(4):511−516
|
| [8] |
丁虎, 赵丹, 刘少刚, 等. 钛合金通海阀不同开度下的流噪声分析及优化[J]. 海军工程大学学报,2017,29(4):64−69,85 (in Chinese)
Ding H, Zhao D, Liu S G, et al. Flow noise analysis and optimization of titanium Kingston valve with different openings[J]. Journal of Naval University of Engineering,2017,29(4):64−69,85
|
| [9] |
刘少刚, 郑大勇, 潘方冬, 等. 深海通海阀开启力仿真与试验[J]. 哈尔滨工程大学学报,2015,36(4):550−554 (in Chinese)
Liu S G, Zheng D Y, Pan F D, et al. Simulation and experiment research on the opening force of a deep diving outboard valve[J]. Journal of Harbin Engineering University,2015,36(4):550−554
|
| [10] |
李泽斌, 刁爱民, 杨庆超. 缓冲装置在某型通海阀噪声控制中的应用[J]. 流体机械,2022,50(12):86−92 (in Chinese)
Li Z B, Diao A M, Yang Q C. Application of buffer device in noise control of a sea valve[J]. Fluid Machinery,2022,50(12):86−92
|
| [11] |
桂瞬丰, 幸福堂, 李群燕. 基于大涡模拟的通海阀噪声分析[J]. 武汉科技大学学报,2015,38(2):129−133 (in Chinese)
Gui S F, Xing F T, Li Q Y. Noise analysis of a sea suction valve based on LES[J]. Journal of Wuhan University of Science and Technology,2015,38(2):129−133
|
| [12] |
卢宇辉, 卢锐新, 程千驹, 等. 影响通海截止阀冲刷腐蚀的重要参数数值模拟分析[J]. 应用科技,2016,43(4):70−75,80 (in Chinese)
Lu Y H, Lu R X, Cheng Q J, et al. Numerical simulation and analysis of key parameters influencing the scouring corrosion of the deep diving cutoff valve[J]. Applied Science and Technology,2016,43(4):70−75,80
|
| [13] |
卢宇辉, 卢锐新, 刘少刚. 通海截止阀冲刷腐蚀的数值模拟及优化[J]. 应用科技,2016,43(1):61−66 (in Chinese)
Lu Y H, Lu R X, Liu S G. Numerical simulation and optimization for erosion corrosion of the cut-off valve[J]. Applied Science and Technology,2016,43(1):61−66
|
| [14] |
张康, 郝恒, 曹海斌. 模糊FMECA在载人潜器通海阀安全性分析中的应用[J]. 中国水运,2019,19(11):94−96 (in Chinese)
Zhang K, Hao H, Cao H B. Application of fuzzy FMECA in safety analysis of manned submer-sible through-sea valve[J]. China Water Transport,2019,19(11):94−96
|
| [15] |
秦立果, 孙红江, 杨浩, 等. 鲨鱼皮盾鳞结构减阻性能数值模拟[J]. 中国科技论文,2019,14(12):1271−1277 (in Chinese)
Qin L G, Sun H J, Yang H, et al. Numerical simulation on drag reduction performance of shark skin with denticle structures[J]. China Sciencepaper,2019,14(12):1271−1277
|
| [16] |
石磊, 肖武. DN65通海阀声学特性分析[J]. 液压气动与密封,2015,35(2):10−12 (in Chinese)
Shi L, Xiao W. Studied on the acoustic characteristics of DN65 sea valve[J]. Hydraulic Pneumatics & Seals,2015,35(2):10−12
|
| [17] |
仇畅, 于龙杰, 钱锦远, 等. 套筒式蒸汽疏水阀多工况下的空化及噪声分析[J]. 排灌机械工程学报,2023,41(3):281−287 (in Chinese)
Qiu C, Yu L J, Qian J Y, et al. Cavitation and acoustic analysis of sleeve steam trap under multiple working conditions[J]. Journal of Drainage and Irrigation Machinery Engineering,2023,41(3):281−287
|
| [18] |
Wang L T, Zheng S K, Liu X, et al. Flow resistance optimization of link lever butterfly valve based on combined surrogate model[J]. Structural and Multidisciplinary Optimization,2021,64(6):4255−4270 doi: 10.1007/s00158-021-03060-5
|
| [19] |
仇畅, 干瑞彬, 龙云飞, 等. 煤液化笼式调节阀的空蚀分析及结构改进设计[J]. 过程工程学报,2023,23(2):199−206 (in Chinese)
Qiu C, Gan R B, Long Y F, et al. Cavitation analysis and structure improvement of cageviquefaction industry-typed control alve in coal l[J]. The Chinese Journal of Process Engineering,2023,23(2):199−206
|
| [20] |
王芊婷, 王均宇, 张克鹏, 等. 典型截止节流阀空化特性分析[J]. 真空科学与技术学报,2023,43(8):715−723 (in Chinese)
Wang Q T, Wang J Y, Zhang K P, et al. Analysis of cavitation characteristics of stop throttle valve[J]. Chinese Journal Vacuum Science and Technology,2023,43(8):715−723
|
| [21] |
方超, 马士虎, 蔡标华, 等. 基于BEM的通海阀流噪声与流激振动噪声数值模拟对比研究[J]. 舰船科学技术,2018,40(3):30−34 (in Chinese)
Fang C, Ma S H, Cai B H, et al. Numerical simulation contrastive study on flow noise and flow induced vibration noise of sea valve based on BEM[J]. Ship Science and Technology,2018,40(3):30−34
|
| [22] |
戴磊, 王均宇, 王旭飞, 等. 基于CFD电子膨胀阀空化及噪声特性分析[J]. 真空科学与技术学报,2023,43(6):526−536 (in Chinese)
Dai L, Wang J Y, Wang X F, et al. CFD-based electronic expansion valve cavitation and noise characteristics analysis[J]. Chinese Journal of Vacuum Science and Technology,2023,43(6):526−536
|
| [23] |
李威, 童成彪, 韩安伟, 等. 活塞式调节阀阻塞流研究[J]. 真空科学与技术学报,2023,43(2):142−148 (in Chinese)
Li W, Tong C B, Han A W, et al. Choked flow of plunger valve[J]. Chinese Journal of Vacuum Science and Technology,2023,43(2):142−148
|
| [24] |
陶文铨. 数值传热学(第二版)[M]. 西安: 西安交通大学出版社, 2001 (in Chinese)
Tao W Q. Numerical heat transfer (2nd edition)[M]. Xi’an: Xi'an Jiaotong University Press, 2001
|
| [25] |
Qian J Y, Hou C W, Mu J, et al. Valve core shapes analysis on flux through control valves in nuclear power plants[J]. Nuclear Engineering and Technology,2020,52(10):2173−2182 doi: 10.1016/j.net.2020.03.008
|
| [26] |
Launder B E, Spalding D B. The numerical computation of turbulent flows[M]//Patankar S V, Pollard A, Singhal A K, et al. Numerical prediction of flow, heat transfer, turbulence and combustion. New York: Pergamon, 1983: 96−116
|
| [27] |
Del Vescovo G, Lippolis A. Three-dimensional analysis of flow forces on directional control valves[J]. International Journal of Fluid Power,2003,4(2):15−24 doi: 10.1080/14399776.2003.10781162
|
| [28] |
Pan X D, Wang G L, Lu Z S. Flow field simulation and a flow model of servo-valve spool valve orifice[J]. Energy Conversion and Management,2011,52(10):3249−3256 doi: 10.1016/j.enconman.2011.05.010
|
| [29] |
Huovinen M, Kolehmainen J, Koponen P, et al. Experimental and numerical study of a choke valve in a turbulent flow[J]. Flow Measurement and Instrumentation,2015,45:151−161 doi: 10.1016/j.flowmeasinst.2015.06.005
|
| [30] |
Lin Z, Ma C J, Xu H G, et al. Numerical and experimental studies on hydrodynamic characteristics of sleeve regulating valves[J]. Flow Measurement and Instrumentation,2017,53:279−285 doi: 10.1016/j.flowmeasinst.2016.12.001
|
| [31] |
贾文尖, 蒋鹏, 史文祥, 等. 新型通海阀流噪声的数值模拟对比研究[J]. 舰船科学技术,2023,45(16):48−54 (in Chinese) doi: 10.3404/j.issn.1672-7649.2023.16.010
Jia W J, Jiang P, Shi W X, et al. Comparative study on numerical simulation of flow noise of a new type of sea valve[J]. Ship Science and Technology,2023,45(16):48−54 doi: 10.3404/j.issn.1672-7649.2023.16.010
|
| [32] |
余清洲, 李斌, 王飞, 等. 角座式真空排污界面阀的设计与模拟研究[J]. 真空科学与技术学报,2021,41(10):986−992 (in Chinese)
Yu Q Z, Li B, Wang F, et al. Design and simulation of angular vacuum interface valve for sewage discharge[J]. Chinese Journal of Vacuum Science and Technology,2021,41(10):986−992
|
| [33] |
金明星. 套筒阀的流动特性和流固耦合特性研究[D]. 南京: 东南大学, 2019 (in Chinese)
Jin M X. Research on flow characteristics and fluid-solid interaction characteristics of the valve sleeve[D]. Nanjing: Southeast University, 2019
|
| [34] |
Colonius T, Lele S K. Computational aeroacoustics: progress on nonlinear problems of sound generation[J]. Progress in Aerospace Sciences,2004,40(6):345−416 doi: 10.1016/j.paerosci.2004.09.001
|
| [35] |
国家市场监督管理总局, 中国国家标准化管理委员会. GB/T 17213.14-2018 工业过程控制阀 第8-2部分: 噪声的考虑 实验室内测量液动流流经控制阀产生的噪声[S]. 北京: 中国标准出版社, 2019 (in Chinese)
State Administration of Market Supervision and Administration of the People's Republic of China, Standardization Administration of the People's Republic of China. GB/T 17213.14-2018 Industrial-process control valves-Part 8-2: noise considerations-laboratory measurement of noise generated by hydrodynamic flow through control valves[S]. Beijing: Standards Press of China, 2019
|
| [36] |
孟令旗. 高压降多级降压疏水调节阀声学特性研究[D]. 兰州: 兰州理工大学, 2017 (in Chinese)
Meng L Q. Research on acoustic characteristic of high pressure-drop multistage steam trap[D]. Lanzhou: Lanzhou University of Technology, 2017
|