FİBER BRAGG IZGARA SENSÖR DİZİSİ TABANLI SICAKLIK ÖLÇÜM SİSTEMİ TASARIMI VE UYGULAMASI

Yıl 2017, Cilt: 32 Sayı: 3, 0 - 0, 07.09.2017

Murat Yücel , Nail Ferhat Öztürk Murat Torun Murat Yücel

https://doi.org/10.17341/gazimmfd.337650

Cited By: 5

https://izlik.org/JA85ZF55NR

Öz

Bu çalışmada, Fiber Bragg Izgara (FBG) tabanlı sensörler ile tek tek ve sensör dizisi oluşturularak sıcaklık ölçüm sistemi tasarlanmış ve deneysel olarak gerçekleştirilmiştir. Bu amaçla, lazer tarama tekniği kullanılarak, 1532.032 nm merkez dalgaboyuna sahip seramik kaplamalı ve 1536.674 nm merkez dalgaboyuna sahip metal kaplamalı FBG sensörler kulanılmıştır. Bu sensörler tekli ve dizi yapısındaki 30 ºC ile 100 ºC arasındaki farklı sıcaklıklara tabii tutularak, çıkışdaki optik sinyal değişimleri incelenmiştir. Sonuç olarak, 0.5 ºC hassasiyetle doğru ve hızlı olarak sıcaklık ölçümü yapılmıştır.

Anahtar Kelimeler

Fiber Bragg Izgara , Sıcaklık Sensörü , Lazer Tarama

Kaynakça

• Yücel, M., Göktas, H. H., Yücel, M., Öztürk, N.F., “The fiber optical sensing based on Brillouin scattering”, IEEE 22nd Signal Processing and Communications Applications Conference, SIU 2014 – Proceedings, Trabzon, Turkey, 2014.
• Yücel, M., Yücel, M., Öztürk, N.F., Göktas, H. H “The analyzes of the Brillouin scattering for the different fiber types”, IEEE 23nd Signal Processing and Communications Applications Conference, SIU 2015 – Proceedings, Malatya, Turkey, 2015
• Yucel, M., Yucel, M., Ozturk, N.F., Goktas, H. H., Gemci, C., Celebi, F.V., “The Effects of Signal Level of the Microwave Generator on the Brillouin Gain Spectrum in BOTDA and BOTDR”, ICOFS 2016: 18th International Conference on Optical Fiber Sensors, Singapore, 2016.
• Yücel, M., , Yücel, M., Gündüz A.E., Göktas, H. H., Öztürk, N.F., “Using Single-mode Fiber as Temperature Sensor” IEEE 24th Signal Processing and Communications Applications Conference, SIU 2016 – Proceedings, Zonguldak, Turkey, 2016.
• Yücel, M., Öztürk, N.F., Yücel, M., Göktas, H. H.,Gündüz A.E., “Design of a Fiber Bragg Grating based temperature sensor”, IEEE24th Signal Processing and Communications Applications Conference, SIU 2016 – Proceedings, Zonguldak, Turkey, 2016.
• Chan, J.C.C., “Interrogation of a Fiber Bragg Grating Sensor with a Tunable Laser Source”, Phd Thesis, Polytechnic University, 2000.
• Rajan, G. “Optical Fiber Sensors: Advanced Techniques and Applications,” CRC Press, pp. 208–245, 2015.
• Dai, Y., Zhang, Z., Leng, J., Asundi, A., “A Novel Fiber Bragg Grating Sensor Interrogator based on Time Division Multiplexing Technique”, Second International Conference on Smart Materials and Nanotechnology in Engineering, Vol.7493, 2009.
• Wu, Q., Wang, P., Semenova, Y., Farrell, G., “A Study of the Effect of the Position of an Edge Filter within a Ratiometric Wavelength Measurement System”, Meas. Sci. Technol., Vol.21, 2010.
• Luo, Z., Wen, H., Guo, H., Yang, M., “A Time and Wavelength Division Multiplexing Sensor Network with Ultra-weak Fiber Bragg Gratings”, Optics Express, 21(19): 22799-22807, 2013.
• Werneck, M.M., Allil, R.C.S.B, Ribeiro,B.A., Nazare, F.V.B., “A Guide to Fiber Bragg Grating Sensors”, Intech Press, 1-24, 2013.
• Dong, B., He, S., Hushu, Y., Tianda, W., Lvjun, F., Guo, T., Zhao, Q. “Combined Time and Wavelength Division Multiplexing Demodulation Technique of Fiber Grating Sensor Arrays Using a Tunable Pulsed Laser”, Applied Optics, 46(7): 1015-1018, 2007.
• Turan, E., “Fiber Grating Spectra”, Journal of Lightwave Technology, 15 (8):1277-1294, 1997.
• Heininger, H., “İnterrogation of Optical Fiber Sensors for Civil Engineering Applications Using Widely Tunable Laser”, Phd Thesis, Brno, 2014.
• Baker, S. R., Rourke, H. N., Baker, V., Goodchild, D. , “Thermal decay of fiber Bragg gratings written in boron and germanium codoped silica fiber”, J. Lightwave Technol., 15, 1470–1477, 1997.
• Canning, J., “Fibre gratings and devices for sensors and lasers”, Laser Photon. Rev., 2, 275–289, 2008.
• Bandyopadhyay, S., Canning, J., Stevenson, M., Cook, K., “Ultrahigh-temperature regenerated gratings in boron-codoped germanosilicate optical fiber using 193 nm”, Opt. Lett., 33, 1917–1919, 2008.
• Shen, R.S., Zhang, J., Wang, Y., Teng, R., Wang, B.Y., Zhang, Y.S., Yan, W.P., Zheng, J., Du, G.T., “Study on high temperature and high pressure measurement by using metal coated FBG”, Microw. Opt. Technol. Lett., 50(5), 1138–1140, 2008.
• Sohn, K.R., Shim, J. H., “Liquid level monitoring sensor systems using FBG embedded in cantilever”, Sens. Actuat. A, 152, 248–251, 2009.
• Sengupta, D., Kishore, P., “Continuous liquid level monitoring sensor system using fiber Bragg grating”, Opt. Eng., 53(1), 017102, 2014.
• Su, Y., Zhu, Y., Zhang, B., Li, J., Li, Y., “Use of the polarization properties of magneto-optic fiber Bragg gratings for magnetic field sensing purposes”, Opt. Fiber Technol., 17, 196–200, 2011.
• Bao, H., Dong, X., Shao, L.Y., Zhao, C.L., Jin, S., “Temperature-insensitive 2-D tilt sensor by incorporating fiber Bragg gratings with a hybrid pendulum”, Opt. Commun., 283: 5021–5024, 2010.
• Aneesh, R., Maharana, M., Munendhar, P., Tam, H.Y., Khijwania, S. K., “Simple temperature insensitive fiber Bragg grating based tilt sensor with enhanced tenability”, Appl. Opt., 50(25), E172–E176, 2011.
• Zhou, D.P. , Wei, L., Liu, W.K., Lit, J. W. Y., “Simultaneous measurement of strain and temperature based on a fiber Bragg grating combined with a high-birefringence fiber loop mirror”, Opt. Commun., 281, 4640–4643, 2008.
• Tong, Z., Zhao, J., Yang, X. “Simultaneous measurement of axial strain and temperature using a PM fiber Bragg grating”, Microw. Opt. Technol. Lett., 53(4), 867–870, 2011.
• Chehura, E., James, S. W., Tatam, R. P. ,“Temperature and strain discrimination using a single fibre Bragg grating”, Opt. Commun., 275(2), 344–347, 2007.
• Zhou, D.P., Wei, L., Liu, W.K., Liu, Y., Lit, J. W. Y., “Simultaneous measurement for strain and temperature using fiber Bragg gratings and multimode fibers”, Appl. Opt., 47(10), 1668–1672, 2008.
• Mondal, S. K., Mishra, V., Tiwari, U., Poddar, G.C., Singh, N., Jain, S. C., Sarkar, S. N., Kapur, P., “Embedded dual fiber Bragg grating sensor for simultaneous measurement of temperature and load (strain) with enhanced sensitivity”, Microw. Opt. Technol. Lett., 51(7), 1621–1624, 2009.