Research Article

Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring

Volume: 1 Number: 1 January 15, 2017
EN

Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring

Abstract

Monitoring of underwater pipelines through wireless sensor nodes (WSNs) is an important area of research especially for locations such as underground or underwater pipelines, where it is costly to replace batteries. In this study, a finite element sensitivity and comparative analysis for piezoelectric (PZT) energy harvester operating in a fluid flow is done to power underwater in-pipe WSNs. Two types of bluff bodies D and I-shaped are used for comparison. Finite element simulations results show that PZT energy harvester having I-shaped bluff body produces 2.24 mW, while energy harvester having D-shaped bluff body has the capacity to produce only 0.82 mW of power. I-shaped bluff body have significant impact on the performance of pipe and it introduces 6 times more head loss than D-shaped bluff body to maintain regular flow of pipe for the same fluid domain. It is concluded from the analysis that 12 PZT cantilevers in parallel arrangement are needed to maintain 4096 bits per second (bps) transmission of 512-Byte data packet once per 5 minutes with the piezoelectric harvester, using an integrated 7.1 J super capacitor that can fit into the bluff body together with the power electronics and acoustic transceiver.

Keywords

References

  1. J. Heidemann, M. Stojanovic, M. Zorzi, Underwater sensor networks: applications, advances and challenges, Phil Trans R Soc A, 370(1958), 158–175, 2012.
  2. C.C. Elam, C.E. G. Padró, G. Sandrock, A. Luzzi, P. Lindblad, E.F. Hagen, Realizing the hydrogen future: the International Energy Agency’s efforts to advance hydrogen energy technologies, Int. J. Hydrog. Energy, 28(6), 601–607, 2003.
  3. A.K. Akella, R.P. Saini, M.P. Sharma, Social, economical and environmental impacts of renewable energy systems, Renewable Energy, 34, 390-396, 2009.
  4. O. Ercoskun, S. Karaaslan, Guidelines for ecological and technological built environment: a case study on Güdül-Ankara, Turkey, Gazi Univ. J. Sci., 24(3), 617–636, 2011.
  5. I.F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci, Wireless sensor networks: a survey, Comput. Netw., 38(4), 393–422, 2002.
  6. F.U. Qureshi, A. Muhtaroglu, K. Tuncay, A method to integrate energy harvesters into wireless sensor nodes for embedded in-pipe monitoring applications, 5. Int. Conf. Energy Aware Computing Systems & Applications (ICEAC), 24-26 March 2015, 1–4.
  7. M. Lubieniecki, T. Uhl, Integration of thermal energy harvesting in semi-active piezoelectric shunt-damping systems, J. Electronic Materials, 44(1), 341-347, 2015.
  8. S. Firat, Application of efficient and renewable energy technologies in low cost buildings and construction, J. Polytech., 17(1), 1-2, 2014.

Details

Primary Language

English

Subjects

Electrical Engineering

Journal Section

Research Article

Authors

Fassahat Ullah Qureshi Qureshi
MIDDLE EAST TECHNICAL UNIVERSITY, METU NORTHERN CYPRUS CAMPUS (NTRC - GÜZELYURT)
Türkiye

Ali Muhtaroğlu
MIDDLE EAST TECHNICAL UNIVERSITY, METU NORTHERN CYPRUS CAMPUS (NTRC - GÜZELYURT)
Türkiye

Kagan Tuncay This is me
MIDDLE EAST TECHNICAL UNIVERSITY
Türkiye

Publication Date

January 15, 2017

Submission Date

July 15, 2017

Acceptance Date

August 11, 2017

Published in Issue

Year 2017 Volume: 1 Number: 1

APA
Qureshi, F. U. Q., Muhtaroğlu, A., & Tuncay, K. (2017). Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring. Journal of Energy Systems, 1(1), 10-20. https://doi.org/10.30521/jes.328600
AMA
1.Qureshi FUQ, Muhtaroğlu A, Tuncay K. Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring. Journal of Energy Systems. 2017;1(1):10-20. doi:10.30521/jes.328600
Chicago
Qureshi, Fassahat Ullah Qureshi, Ali Muhtaroğlu, and Kagan Tuncay. 2017. “Sensitivity Analysis for Piezoelectric Energy Harvester and Bluff Body Design Toward Underwater Pipeline Monitoring”. Journal of Energy Systems 1 (1): 10-20. https://doi.org/10.30521/jes.328600.
EndNote
Qureshi FUQ, Muhtaroğlu A, Tuncay K (January 1, 2017) Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring. Journal of Energy Systems 1 1 10–20.
IEEE
[1]F. U. Q. Qureshi, A. Muhtaroğlu, and K. Tuncay, “Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring”, Journal of Energy Systems, vol. 1, no. 1, pp. 10–20, Jan. 2017, doi: 10.30521/jes.328600.
ISNAD
Qureshi, Fassahat Ullah Qureshi - Muhtaroğlu, Ali - Tuncay, Kagan. “Sensitivity Analysis for Piezoelectric Energy Harvester and Bluff Body Design Toward Underwater Pipeline Monitoring”. Journal of Energy Systems 1/1 (January 1, 2017): 10-20. https://doi.org/10.30521/jes.328600.
JAMA
1.Qureshi FUQ, Muhtaroğlu A, Tuncay K. Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring. Journal of Energy Systems. 2017;1:10–20.
MLA
Qureshi, Fassahat Ullah Qureshi, et al. “Sensitivity Analysis for Piezoelectric Energy Harvester and Bluff Body Design Toward Underwater Pipeline Monitoring”. Journal of Energy Systems, vol. 1, no. 1, Jan. 2017, pp. 10-20, doi:10.30521/jes.328600.
Vancouver
1.Fassahat Ullah Qureshi Qureshi, Ali Muhtaroğlu, Kagan Tuncay. Sensitivity analysis for piezoelectric energy harvester and bluff body design toward underwater pipeline monitoring. Journal of Energy Systems. 2017 Jan. 1;1(1):10-2. doi:10.30521/jes.328600

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