Smart Structures and Systems

  • 제6권9호
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  • Pages.1007-1023
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  • 2010
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  • 1738-1584(pISSN)
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  • 1738-1991(eISSN)
테크노프레스 (Techno-Press)
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Design and evaluation of a distributed TDR moisture sensor

  • Zhang, Bin (Department of Civil Engineering, Case Western Reserve University) ;
  • Yu, Xinbao (Department of Civil Engineering, Case Western Reserve University) ;
  • Yu, Xiong (Department of Civil Engineering, Case Western Reserve University)
  • 투고 : 2009.06.11
  • 심사 : 2010.04.29
  • 발행 : 2010.12.25
⟨ 이전 논문 다음 논문 ⟩

초록

This paper describes the development and evaluation of an innovative TDR distributed moisture sensor. This sensor features advantages of being responsive to the spatial variations of the soil moisture content. The geometry design of the sensor makes it rugged for field installation. Good linear calibration is obtained between the sensor measured dielectric constant and soil physical properties. Simulations by the finite element method (FEM) are conducted to assist the design of this sensor and to determine the effective sampling range. Compared with conventional types of moisture sensor, which only makes point measurement, this sensor possesses distributed moisture sensing capability. This new sensor is not only easy to install, but also measures moisture distribution with much lower cost. This new sensor holds promise to significantly improve the current field instruments. It will be a useful tool to help study the influence of a variety of moisture-related phenomena on infrastructure performance.

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참고문헌

  1. Abo-Hashema, M.A., Bayomy, F.M., Smith, R. and Salem, H.M. (2002), "Environmental impacts on subgrade resilient modulus for Idaho pavements", Proceedings of the Transportation Research Board (TRB) 81st Annual Meeting, Washington D.C., DC, USA, January.
  2. Baker, J.M. and Allmaras, R.R. (1990), "System for automating and multiplexing soil moisture measurement by time-domain reflectometry", Soil Sci. Soc. Am. J., 54(1), 1-6. https://doi.org/10.2136/sssaj1990.03615995005400010001x
  3. Campbell, C.G., Ghodrati, M. and Garrido, F. (1999), "Comparison of time domain reflectometry, fiber optic mini-probes, and solution samplers for real time measurements of solute transport in soil", Soil Sci., 164(3), 156-170. https://doi.org/10.1097/00010694-199903000-00002
  4. Chen, G., Mu, H.M., Pommerenke, D. and Drewniak, J.L. (2004), "Damage detection of reinforced concrete beams with novel distributed crack/strain sensors", Struct. Health Monit., 3(3), 225-243. https://doi.org/10.1177/1475921704045625
  5. Drnevich, V.P., Lin, C.P., Yi, Q., Yu, X. and Lovell, J. (2001a), Realtime determination of soil type, water content and density using electromagnetics, Final Report FHWA/IN/JTRP-2000/20, Joint Transportation Research Program, School of Civil Engineering, Purdue University, West Lafayette, IN, USA, http://docs.lib.purdue.edu/cgi/viewcontent.cgi?article=1648&context=jtrp.
  6. Drnevich, V.P., Siddiqui, S.I., Lovell, J. and Yi, Q. (2001b), "Water content and density of soil insitu by the Purdue TDR method", Proceedings of the TDR2001 International Conference, Northwestern University, Evanston, IL, USA, September.
  7. Ferre, P.A., Knight, J.H., Rudolph, D.L. and Kachanoski, R.G. (1998), "The sample areas of conventional and alternative time domain reflectometry probes", Water Resour. Res., 34(11), 2971-2979. https://doi.org/10.1029/98WR02093
  8. Graf, J. and Zink, S. (2005), "Patching problems: often what caused the pavement failure lies not on the surface, but with the subgrade", HMAT, 10(2), 47-48.
  9. Heimovaara, T.J. (1994), "Frequency domain analysis of time domain reflectometry waveforms: 1.Measurement of the complex dielectric permittivity of soils", Water Resour. Res., 30(2), 189-199. https://doi.org/10.1029/93WR02948
  10. Hong, G.T., Bulut, R., Aubeny, C.P., Jayatilaka, R. and Lytton, R.L. (2006), "Prediction of roughness of pavements on expansive soils", Proceedings of the Fourth International Conference on Unsaturated Soils, (Eds. Gerald A. Miller, Claudia E. Zapata, Sandra L. Houston and Delwyn G. Fredlund), Carefree, AZ, USA, April.
  11. Huang, Y.H. (2003), Pavement Analysis and Design, 2nd Ed., Prentice Hall.
  12. Knight, J.H. (1992), "Sensitivity of time domain reflectometry measurements to lateral variations in soil water content", Water Resour. Res., 28(9), 2345-2352. https://doi.org/10.1029/92WR00747
  13. Lin, M.W., Abatan, A.O. and Danjaji, M.B. (1997),"Electrical time domain reflectometry sensing cables as distributed stress/strain sensors in smart materials systems", Proc. SPIE, 3042, 33-44.
  14. Lin, M.W., Thaduri, J. and Abatan, A.O. (2005), "Development of an electrical time domain reflectometry (ETDR) distributed strain sensor", Meas. Sci. Technol., 16(7), 1495-1505. https://doi.org/10.1088/0957-0233/16/7/012
  15. Liang, R.Y., Al-Akhras, K. and Rabab'ah, S. (2006), "Field monitoring of moisture variations under flexible pavement", Proceedings of the 2006 TRB 85th Annual Meeting, Washington D.C., DC, USA, January.
  16. Mojid, M.A., Wyseure, G.C.L. and Rose, D.A. (1998), "The use of insulated time-domain reflectrometry sensors to measure water content in highly saline soils", Irrigation Sci., 18(2), 55-61. https://doi.org/10.1007/s002710050044
  17. Nichol, C., Beckie, R. and Smith, L. (2002), "Evaluation of uncoated and coated time domain reflectometry probes for high electrical conductivity systems", Soil Sci. Soc. Am. J., 66(5), 1454-1465. https://doi.org/10.2136/sssaj2002.1454
  18. O'Connor, K.M. and Dowding, C.H. (1999), GeoMeasurements by Pulsing TDR Cables and Probes, CRC Press, USA.
  19. Persson, M., Bendz, D. and Flyhammar, P. (2004), "Time-domain reflectometry probe for water content and electrical conductivity measurements in saline porous media", Vadose Zone J., 3(4), 1146-1151. https://doi.org/10.2113/3.4.1146
  20. Ramo, S., Whinnery, J.R. and Van Duzer, T. (1994), Fields and waves in communication electronics, John Wiley and Sons, New York.
  21. Salem, R.M., Burdette, E.G. and Jackson, N.M. (2003), "Resistance to freezing and thawing of recycled aggregate concrete", ACI Mater. J., 100(3), 216-221.
  22. Schlaeger, S., Huebner, C., Scheuermann, A. and Gottlieb, J. (2001), "Development and application of TDR inversion algorithms with high spatial resolution for moisture profile determination", Proceedings of the Second International Symposium and Workshop on Time Domain Reflectometry for Innovative Geotechnical Applications, Northwestern University, Evanston, IL, USA, September.
  23. Siddiqui, S.I. and Drnevich, V.P. (1995), Use of time domain reflec- tometry for the determination of water content and density of soil, Final Report FHWA/IN/JHRP-95/9, Joint Highway Research Project, School of Civil Engineering, Purdue University, West Lafayette, IN, USA.
  24. Siddiqui, S.I. and Drnevich, V.P. (1996), A new method of measuring density and moisture content of soil using the technique of time domain reflectometry, Report No. FHWA/IN/JTRP-95/9, Joint Transportation Research Program, Indiana Department of Transportation, Purdue University, West Lafayette.
  25. Stastny, J.A., Rogers, C.A. and Liang, C. (1993), "Distributed electrical time domain reflectometry (ETDR) structural sensors: design models and proof-of-concept experiments", Proc. SPIE, 1918, 366-376.
  26. Sun, Z.J., Young, G.D., McFarlane, R.A. and Chambers, B.M. (2000), "The effect of soil electrical conductivity on moisture determination using time-domain reflectometry in sandy soil", Can. J. Soil Sci., 80(1), 13-22. https://doi.org/10.4141/S98-089
  27. Tang, L.Q., Tao, X.M. and Choy, C.L. (2001), "Possibility of using a coaxial cable as a distributed strain sensor by time domain reflectometry", Smart Mater. Struct., 10(2), 221-228. https://doi.org/10.1088/0964-1726/10/2/307
  28. Topp, G.C., Davis, J.L. and Annan, A.P. (1980), "Electromagnetic determination of soil water content: measurements in coaxial ransmission lines", Water Resour. Res., 16(3), 574-582. https://doi.org/10.1029/WR016i003p00574
  29. Topp, G.C. and Davis, J.L. (1985), "Measurement of soil water content using time domain reflectometry (TDR): A field evaluation1", Soil Sci. Soc. Am. J., 49(1), 19-24. https://doi.org/10.2136/sssaj1985.03615995004900010003x
  30. Worsching, H., Becker, R., Schlaeger, S., Bieberstein, A. and Kudella, P. (2006), "Spatial-TDR moisture measurement in a large scale Levee model made of Loamy soil material", Proceedings of the TDR 2006: Third International Symposium and Workshop on Time Domain Reflectometry for Innovative Soils Applications, Purdue University, IN, USA, September.
  31. Yu, X. (2003), Influence of Soil Properties and Environmental Conditions on Electromagnetic Wave Propagation in Soils, Ph.D. Thesis, School of Civil Engineering, Purdue University.
  32. Yu, X. and Drnevich, V.P. (2004), "Soil water content and dry density by time domain reflectometry", J. Geotech. Geoenviron. Eng., 130(9), 922-934. https://doi.org/10.1061/(ASCE)1090-0241(2004)130:9(922)
  33. Yu, X. and Yu, X. (2006), "Time domain reflectometry tests of multilayered soils", Proceedings of the TDR 2006: Third International Symposium and Workshop on Time Domain Reflectometry for Innovative Soils Applications, Purdue University, IN, USA, September.
  34. Zegelin, S.J., White, I. and Jenkins, D.R. (1989), "Improved field probes for soil water content and electrical conductivity measurement using time domain reflectometry", Water Resour. Res., 25(11), 2367-2376. https://doi.org/10.1029/WR025i011p02367

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