Yıl 2019, Cilt 3 , Sayı 2, Sayfalar 51 - 66 2019-06-30

Design and fabrication of a new micro-power scaled electromagnetic harvester

Busra Mutlu [1] , Erol Kurt [2] , Nicu Bizon [3] , Jose Manuel Lopez Guede [4]


In the present study, a new micro-power scaled electromagnetic (EM) harvester is designed and fabricated. The device has an innovative magnetic flux varying mechanism with two cylindrical Nb magnets and a central core moving inside the magnets back and forth. The system harvest electricity from the linear oscillations by the help of a spring attached at the bottom part of the core. The device requires only one spring and a second linear-laminated core closes the flux outside of the magnets in order to lower the reluctance of the system. The device is 6 cm in length and 2.4 cm in width in cylindrical geometry as a compact and stable geometry. The experimental verifications have proven that it can generate up to U = 7.76 mV output voltage depending on the oscillation frequency. The maximal output power has been measured as P= 32 mW for 44 Hz frequency with the resistive load RL = 0.2 Ohm. The power density p = 1.17 mW/cm3 has been obtained, experimentally.
Electromagnetic harvester, Power, Flux, Core
  • Beeby, S: P., O’Donnell, T. Electromagnetic Energy Harvesting, In Energy Harvesting Technologies (Editors: S. Priya, D.J. Inman), Springer, USA, 129 (2009).
  • Uzun, Y., Kurt, E., Kurt, H.H., Explorations of displacement and velocity nonlinearities and their effects to power of a magnetically-excited piezoelectric pendulum, Sensors and Actuators A: Physical, 224, 119 (2015).
  • Uzun, Y., Kurt, E., The effect of periodic magnetic force on a piezoelectric energy harvester, Sensors and Actuators A: Physical, 192, 58 (2013).
  • Bizon, N., Tabatabaei, N.M., Blaabjerg, F., Kurt, E., Energy Harvesting and Energy Efficiency: Technology, Methods, and Applications, Springer, Switzerland, 107 (2017).
  • Kurt, E., Gor, H., Doner,U., Electromagnetic design of a new axial and radial flux generator with the rotor back-irons, International Journal of Hydrogen Energy, 41(17), 7019 (2016).
  • Arslan, S., Kurt, E., Akizu, O., Lopez-Guede, J.M., Design optimization study of a torus type axial flux machine. Journal of Energy Systems , 2(2): 43-56, (2018), DOI: 10.30521/jes. 408179
  • Celik, K., Kurt, E., Uzun, Y., Experimental and theoretical explorations on the buckling piezoelectric layer under magnetic excitation, Journal of Electronic Materials, 46(7), 4003 (2017).
  • Kurt, E., Cottone, F., Uzun, Y., Orfei, F., Mattarelli, F., Özhan, D., Design and implementation of a new contactless triple piezoelectrics wind energy harvester, Int. J. Hydrogen Energy, 42(28), 17813 (2017).
  • Spreemann, D., Manoli, Y., Electromagnetic vibration energy harvesting devices: Architectures, design, modeling and optimization (Vol. 35). Springer Science & Business Media (2012).
  • Amirtharajah, R., Chandrakasan, A.P., Self-powered signal processing using vibration-based power generation, IEEE Journal of Solid-State Circuits, 33(5), 687 (1998).
  • El-Hami, M. , Glynne-Jones, P., White, N.M., Hill, M., Beeby, S., James, E., Brown, A.D., Ross, J.N., Design and fabrication of a new vibration-based electromechanical power generator”, Sensors and Actuators A: Physical, 92(1), 335 (2001).
  • Glynne-Jones, P. , Tudor, M.J., Beeby, S.P., White, N.M., An electromagnetic, vibration-powered generator for intelligent sensor systems, Sensors and Actuators A: Physical, 110(1), 344 (2004).
  • Beeby, S.P., Tudor, M.J., White, N.M. Energy harvesting vibration sources for microsystems applications, Measurement Science and Technology, 17, R175 (2006).
  • Torah, R.N., Glynne-Jones, P., Tudor, M.J., Beeby, S.P. Energy aware wireless microsystem powered by vibration energy system, Pro. 7th Int. Workshop on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS 2007), Freiburg, Germany, 323, 28-29 Nov. (2007).
  • Von Büren, T., Tröster, G., Design and optimization of a linear vibration-driven electromagnetic micro-power generator, Sensors and Actuators A: Physical, 135(2), 765 (2007).
  • Yuen, S.C., Lee, J.M., Li, W.J., Leong, P.H. An AA-Sized Vibration-Based Microgenerator for Wireless Sensors, IEEE Pervasive Computing, 6(1), 64 (2007).
  • Hadas, Z., Kurfurst, J., Ondrusek, C., Singule, V., Artificial intelligence based optimisation for vibration energy harvesting applications, Microsystem Technologies, 1–12, (2012), DOI: 10.1007/s00542-012-1432-1
  • Kurt, E., Kale, M.M., Akbaba, S., Bizon, N., Analytical and experimental studies on a new linear energy harvester, Canadian J. Physics, 2018, https://doi.org/10.1139/cjp-2017-0708.
  • Hendijanizadeh, M., Sharkh, S.M., Elliott, S.J., Moshrefi-Torbati, M. Output power and efficiency of electromagnetic energy harvesting systems with constrained range of motion, Smart Materials and Structures, 22:125009 (2013).
Birincil Dil en
Konular Mühendislik, Elektrik ve Elektronik
Bölüm Araştırma Makaleleri
Yazarlar

Orcid: 0000-0003-2807-2164
Yazar: Busra Mutlu
Kurum: Gazı University
Ülke: Turkey


Orcid: 0000-0002-3615-6926
Yazar: Erol Kurt (Sorumlu Yazar)
Kurum: Gazı University
Ülke: Turkey


Orcid: 0000-0001-9311-7598
Yazar: Nicu Bizon
Kurum: Pitesti Uni.
Ülke: Romania


Orcid: 0000-0002-5310-1601
Yazar: Jose Manuel Lopez Guede
Kurum: EHU
Ülke: Spain


Tarihler

Yayımlanma Tarihi : 30 Haziran 2019

Bibtex @araştırma makalesi { jes554900, journal = {Journal of Energy Systems}, issn = {}, eissn = {2602-2052}, address = {}, publisher = {Erol KURT}, year = {2019}, volume = {3}, pages = {51 - 66}, doi = {10.30521/jes.554900}, title = {Design and fabrication of a new micro-power scaled electromagnetic harvester}, key = {cite}, author = {Mutlu, Busra and Kurt, Erol and Bizon, Nicu and Lopez Guede, Jose Manuel} }
APA Mutlu, B , Kurt, E , Bizon, N , Lopez Guede, J . (2019). Design and fabrication of a new micro-power scaled electromagnetic harvester. Journal of Energy Systems , 3 (2) , 51-66 . DOI: 10.30521/jes.554900
MLA Mutlu, B , Kurt, E , Bizon, N , Lopez Guede, J . "Design and fabrication of a new micro-power scaled electromagnetic harvester". Journal of Energy Systems 3 (2019 ): 51-66 <https://dergipark.org.tr/tr/pub/jes/issue/45272/554900>
Chicago Mutlu, B , Kurt, E , Bizon, N , Lopez Guede, J . "Design and fabrication of a new micro-power scaled electromagnetic harvester". Journal of Energy Systems 3 (2019 ): 51-66
RIS TY - JOUR T1 - Design and fabrication of a new micro-power scaled electromagnetic harvester AU - Busra Mutlu , Erol Kurt , Nicu Bizon , Jose Manuel Lopez Guede Y1 - 2019 PY - 2019 N1 - doi: 10.30521/jes.554900 DO - 10.30521/jes.554900 T2 - Journal of Energy Systems JF - Journal JO - JOR SP - 51 EP - 66 VL - 3 IS - 2 SN - -2602-2052 M3 - doi: 10.30521/jes.554900 UR - https://doi.org/10.30521/jes.554900 Y2 - 2019 ER -
EndNote %0 Journal of Energy Systems Design and fabrication of a new micro-power scaled electromagnetic harvester %A Busra Mutlu , Erol Kurt , Nicu Bizon , Jose Manuel Lopez Guede %T Design and fabrication of a new micro-power scaled electromagnetic harvester %D 2019 %J Journal of Energy Systems %P -2602-2052 %V 3 %N 2 %R doi: 10.30521/jes.554900 %U 10.30521/jes.554900
ISNAD Mutlu, Busra , Kurt, Erol , Bizon, Nicu , Lopez Guede, Jose Manuel . "Design and fabrication of a new micro-power scaled electromagnetic harvester". Journal of Energy Systems 3 / 2 (Haziran 2019): 51-66 . https://doi.org/10.30521/jes.554900
AMA Mutlu B , Kurt E , Bizon N , Lopez Guede J . Design and fabrication of a new micro-power scaled electromagnetic harvester. JES. 2019; 3(2): 51-66.
Vancouver Mutlu B , Kurt E , Bizon N , Lopez Guede J . Design and fabrication of a new micro-power scaled electromagnetic harvester. Journal of Energy Systems. 2019; 3(2): 66-51.