|
|
A study on pipeline vibration reduction technology based on a magnetic damping dynamic vibration absorber |
ZHOU Shuai,GAO Hongbo,LIN Lei,CHEN Zhilin,XU Decheng,CHEN Mingya |
Suzhou Nuclear Power Research Institute Co., Ltd., Suzhou 215004, China |
|
|
Abstract (五号加粗) In order to solve the problem of pipeline vibration in power industries such as nuclear power and thermal power, a one-way damped dynamic vibration absorber suitable for three-dimensional pipelines based on fixed point theory was developed and designed. And a key parameter calculator based on visual basic was compiled. The effectiveness of the dynamic vibration absorber in three-dimensional pipeline vibration reduction was verified through finite element simulation, installation location parameter optimization, and experimental verification. The conclusion is as follows: The dynamic vibration absorber developed can effectively reduce the vibration of three-dimensional pipelines. The vibration reduction effect verified by experiment is similar to that verified by simulation calculation.
|
Received: 10 April 2023
Published: 28 April 2024
|
|
|
|
[1] 梅晓好, 魏旭峰, 夏军等. 核电厂主蒸汽管道振动原因分析与治理[J]. 工程建设与设计,2020,(20):100-101+111.
MEI Xiao-hao, WEI Xu-feng, XIA Jun, et al. Analysis and Treatment of Main Steam Pipe Vibration in Nuclear Power Plant [J]. Construction $ Design for Project. 2020, (20): 100-101+111.
[2] 吴蔚宇, 王小艳, 胡沁坤等. 电厂高旁阀振动原因分析及处理[J]. 湖南电力,2017,37(03):65-67.
WU Wei-yu, WANG Xiao-yan, HU Qin-kun, et al. Analysis and Treatment on Vibration Causes of HP Bypass Valve In Power Plant [J]. Hunan Electric Power. 2017, 37(03): 65-67.
[3] 朱朝阳, 胡洲, 顾正皓. 660MW超超临界机组高压旁路减压阀振动异常分析与处理[J]. 浙江电力,2016,35(07):45-48+52.
ZHU Chao-yang, HU zhou, GU Zheng-hao. Cause Analysis and Treatment on Abnormal Vibration of High-Pressure Bypass Decompression Valve of 660 MW Ultra-Supercritical Unit [J]. Zhejiang Electric Power. 2016, 35(07): 45-48+52.
[4] 郑国, 叶涛. 300MW汽轮机旁路系统高旁阀改造[J]. 电站辅机,2003,(04):18-21+44.
ZHENG Guo, YE Tao. Modification of High Pressure Bypass Valve in the Bypass System of a 300MW Steam Turbine [J]. Power Station Auxiliary Equipment. 2003, (04): 18-21+44.
[5] 尚俊峰. 350MW机组在启动过程中旁路振管的原因分析[J]. 电站辅机,2010,31(02):33-36.
SHANG Jun-feng. Analysis on Vibration of The Bypass Pipes During Startup of 350 Mw Power Unit [J]. Power Station Auxiliary Equipment. 2010, 31(02): 33-36.
[6] 林磊, 徐德城, 宋晓峰等. 核电厂仪表管道振动疲劳耐久性能改进研究[J]. 中国核电,2016,9(03):231-236.
LIN Lei, XU De-cheng, SONG Xiao-feng, et al. Improment of Vibration Fatigue Durability of Instrument Pipe in Nuclear Power Plant [J]. China Nuclear Power. 2016, 9(03): 231-236.
[7] 陈锐, 潘晓磊. 600MW机组高压加热器至除氧器疏水管道振动治理[J]. Heilongjiang Electric Power,2021,43(05):457-460.
CHEN Rui, PAN Xiao-lei. Vibration Control for Drain Pipe of High Pressure Heater to Deaerator in 600 MW Uint [J]. China Nuclear Power. 2021, 43(05): 457-460.
[8] 薛宪阔, 候淑娟. 1000MW核电机组再循环管道振动分析及治理[J]. 节能技术,2018,36(02):176-178+187.
XUE Xian-kuo, HOU Su-juan. The Cause Analysis and Improvement of recirculation Piping’s Vibration for 1000 MW Nuclear Power Plant [J]. Energy Conservation Technology. 2018, 36(02): 176-178+187.
[9] 王树升, 付江永. 核电厂碱计量泵出口管道振动分析及治理[J]. 设备管理与维修,2020,(07):132-133.
WANG Shu-sheng, FU Jiang-yong. Analysis and Treatment of Vibration in The Outlet Pipeline of Alkali Metering Pump in Nuclear Power Plants [J]. Plant Maintenance Engineering. 2020, (07): 132-133.
[10] 孙倩, 文永蓬, 纪忠辉等. 城市轨道车辆车体复合吸振器建模与仿真[J]. 振动与冲击,2020,39(21):203-210.
SUN Qian, WEN Yong-peng, JI Zhong-hui, et al. Modeling and Simulation of Composite Vibration Absorber for Urban Rail Vehicle Body [J]. Journal of Vibration and Shock. 2020, 39(21): 203-210.
[11] 白世鹏, 侯之超. 动力吸振器对车辆垂向振动能量及悬架性能的影响[J]. 振动与冲击,2020,39(22):169-174.
BAI Shi-peng, HOU Zhi-chao. Impact of dynamic vibration absorbers on vehicle vertical vibration energy and suspension performances [J]. Journal of Vibration and Shock. 2020, 39(22): 169-174.
[12] 刘国政, 史文库, 郑煜圣等. 动力吸振器在驱动桥减振降噪上的应用[J]. 振动与冲击,2018,37(14):202-207.
LIU Guo-zheng, SHI Wen-ku, ZHENG Yu-sheng, et al. Application of dynamic vibration absorbers in the vibration and reduction of drive axles [J]. Journal of Vibration and Shock. 2018, 37(14): 202-207.
[13] 徐涆文, 杜星, 韩健等. 钢轨动力吸振器对轮轨振动噪声的影响分析[J]. 机械工程学报,2021,57(18):126-136.
XU Han-wen, DU Xing, HAN Jian, et al. Study on The Influence of Rail Vibration Absorber on Wheel/Rail Vibration and Noise [J]. Journal of Mechanical Engineering. 2021, 57(18): 126-136.
[14] DAN M K,SWAYZE J,MATHEY J. Experimental method development for steering wheel system optimization with integral dynamic tuned absorber[J]. Preventive Veterinary Medicine,2005,65(1/2):63-75.
[15] ASAMI T,NISHIHARA O. Analytical solutions to H∞ and H2 optimization of dynamic vibration absorbers attached to damped linear systems[J]. Journal of Vibration & Acoustics,2002,124(2):284-295.
[16] KONG X X,WEN B C. Composite synchronization of a four eccentric rotors driven vibration system with a mass-spring rigid base[J].Journal of Sound and Vibration,2018,427:63-81.
[17] 陈果, 程小勇. 刘明华等. 用于管道减振的新型动力吸振器[J]. 中国机械工程,2014,25(23):3125-3131.
CHEN Guo, CHENG Xiao-yong. LIU Ming-hua ,et al. A New Tipe of Dynamic Vibration Absorber for Pipe System Vibration Suppression [J]. China Mechanical Engineering. 2014, 25(23): 3125-3131.
[18] 周笛, 陈果. 刘明华等. 一种可调频式的管路动力吸振器研究与实验验证[J]. 噪声与振动控制,2015,35(02):217-221.
ZHOU Di, CHEN Guo. LIU Ming-hua ,et al. Study and Experimental Verification on a Dynamic Vibration Absorber With Frequency Adjustable [J]. Noise and Vibration Control. 2015, 35(02): 217-221.
[19] 刘彬彬, 陈果. 赵正大等. 一种新型动力吸振器的液压管道减振试验研究[J]. 噪声与振动控制,2017,37(01):152-157+187.
LIU Bin-bin, CHEN Guo. ZHAO Zheng-da ,et al. Experimental Study on a New Dynamic Vibration Absorber With Adjustable Frequency for Vibration Reduction of Hydraulic Pipelines [J]. Noise and Vibration Control. 2017, 37(01): 152-157+187.
[20] 黄秀金, 何立东, 王晨阳. 可控环形动力吸振器抑制管道强迫振动的研究[J]. 北京化工大学学报(自然科学版), 2015, 42(03): 88-93.
HUANG Xiu-jin, HE Li-dong. WANG Chen-yang. Reduction in Forced Vibration of a Pipe By Means Of a Controllable
Ring Dynamic Vibration Absorber [J]. Journal of Beijing University.of Chemical Technology 2015, 42: 88-93.
[21] 张炳康, 何立东, 杨秀峰等. 悬臂式调谐质量阻尼器抑制管道振动研究[J]. 北京化工大学学报(自然科学版), 2015, 42(02): 89-94.
ZHANG Bing-kang, HE Li-dong. YANG Xiu-feng,et al. Pipeline Vibration Control With a Cantilever Type
Tuned Mass Damper [J]. Journal of Beijing University.of Chemical Technology 2015, 42(02): 89-94.
[22] 背户一登. 动力吸振器及其应用[M]. 任明章. 北京:机械工业出版社,2013.
Kazuto Seto. Dynamic Vibration Absorber And Its Applications [M]. REN Ming-zhang. BeiJing: China Machine Press, 2013.
[23] Deb K , Agrawal S , Pratab A , et al. A fast elitist non-dominated sorting genetic algorithm for multi-objective optimization NSGA-II[M]// Parallel Problem Solving from Nature PPSN VI .Paris:Springer, 2000.
[24] GB/T 2089-2009. 普通圆柱螺旋压缩弹簧尺寸及参数(两端圈并紧磨平或制扁)[S]. 北京: 中华人民共和国国家质量监督检验检疫总局, 2009.
GB/T 2089-2009. Dimensions and Parameters of Ordinary Cylindrical Spiral Compression Springs (With Both Ends Tightly Ground or Flattened) [S]. BeiJing: State General Administration of the People"s Republic of China for Quality Supervision and Inspection andQuarantine, 2009. |
|
|
|