Browse > Article
http://dx.doi.org/10.5050/KSNVE.2015.25.3.160

A Study on Vibration Isolation Technique of Building-augmented Wind Turbine  

Lee, Jong Won (Namseoul University)
Moon, Seok-Jun (Korea Institute of Machinery and Materials)
Publication Information
Transactions of the Korean Society for Noise and Vibration Engineering / v.25, no.3, 2015 , pp. 160-168 More about this Journal
Abstract
Vibration issue of a building structure due to a wind turbine should be resolved for the application of building-augmented wind turbine. In this study, a dynamic analysis for an horizontal-axis upwind wind turbine is carried out to calculate vibration excited to an example building structure. Characteristics of vertical vibration transfer of the building structure are analytically studied and compared with a criteria. Then, a method to isolate the vibration is presented by analyzing the vibration characteristics of the wind turbine, and verified by applying to the building structure.
Keywords
Vibration Isolation; Wind Turbine; Building-augmented;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 Stewart, G. M. and Lackner, M. A., 2014, The Impact of Passive Tuned Mass Dampers and Wind-wave Misalignment on Offshore Wind Turbine Loads, Engineering Structures, Vol. 73, pp. 54~61.   DOI
2 Jonkman, J. M. and Buhl Jr., M. L., 2005, FAST User’s Guide, National Renewable Energy Laboratory Technical Report, NREL/EL-500-38230.
3 Jonkman, B. J., 2009, TurbSim User’s Guide: Version 1.50, National Renewable Energy Laboratory Technical Report, NREL/TP-500-46198.
4 Gandomkar, F. A., Badaruzzaman, F. A. and Osman, S. A., 2012, Dynamic Response of Low Frequency Profiled Steel Sheet Dry Board with Concrete Infill(PSSDBC) Floor System Under Human Walking Load, Latin American Journal of Solids and Structures, Vol. 9, p. 22.
5 Campbell, N., Stankovic, S., Graham, M., Parkin, P., Duijvendijk, M., Gruiter, T., Behling, S., Hieber, J., and Blanch, M., 2001, Wind Energy for the Built Environment(Project WEB), Procs. European Wind Energy Conference & Exhibition, Copenhagen.
6 Lee, J. W., 2013, A Study on Vibration Characteristics of Building Structure Excited by Building-augmented Wind Turbine, Journal of the Construction and Environment Research Institute, Vol. 8, pp. 26~35.
7 Dutton, A. G., Halliday, J. A., Blanch, M. J., 2005, The Feasibility of Building-mounted/Integrated Wind Turbines(BUWTs), Final Report, Energy Research Unit, CCLRC.
8 Lee, J. W., 2013, A Study on Structural Effects of Building-augmented Wind Turbine on Building, Transactions of the Architectural Institute of Korea, Vol. 29, pp. 3~10.
9 Tao, J. and Mak, C. M., 2006, Effect of Viscous Damping on Power Transmissibility for the Vibration Isolation of Building Services Equipment, Applied Acoustics, Vol. 67, pp. 733~742.   DOI
10 Mak, C. M. and Yun, Y., 2010, A Study of Power Transmissibility for the Vibration Isolation of Coherent Vibratory Machines on the Floor of a Building, Applied Acoustics, Vol. 71, pp. 368~372.   DOI
11 Park, Y. G., Ha, S. H., Seong, M. S., Jeon, J. C. and Choi, S. B., 2013, Roller Design of IRB Seismic Isolation Device Using Testing Evaluation : Part I. Geometry Dimension and Crowning, Transactions of the Korean Society for Noise and Vibration Engineering, Vol. 23, pp. 185~191.   DOI
12 Joo, S. R., Ryu, K. C. and Lee, S. K., 2014, Application of Tuned Mass Damper for the Reduction of Global Vertical Vibration of Building due to Rhythmic Group Activities, Journal of the Wind Engineering Institute of Korea, Vol. 18, pp. 111~118.
13 Woude, C. V. and Narasimhan, S., 2014, A Study on Vibration Isolation for Wind Turbine Structures, Engineering Structures, Vol. 60, pp. 223~234.   DOI
14 Roy, D., Brad C., David, B. and Graeme, W., 2008, Harvesting Wind Power from Tall Buildings, CTBUH 8th World Congress.