Increased power to weight ratio of piezoelectric energy harvesters through integration of cellular honeycomb structures

Nataraj, Chandrasekharan; Thompson, Lonny L.

doi:10.1088/0964-1726/25/4/045019

Cited by 16 publications

(11 citation statements)

References 37 publications

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“…On the basis of new design method, structure innovation and the utilize of new materials, the PWR of electric motor which as electrical transmission components has been greatly improved. In order to increased PWR of piezoelectric energy harvesters, Chandrasekharan and Thompson 20 proposed a honeycomb structures instead of the solid continuous substrate of conventional bimorph of the same material. Tounsi 21 presented a motor-converter systemic design methodology improving its PWR, and validated by the finite elements and experimental methods.…”

Section: Introductionmentioning

confidence: 99%

Theoretical and experimental research on the cartridge two-dimensional (2D) electro-hydraulic servo valve

Zheng

Sheng

Ding

et al. 2021

Advances in Mechanical Engineering

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A cartridge 2D EHSV based on torque motor is proposed in this paper, which is keeping the advantages of conventional 2D valve, such as compact structure, high power-to-weight ratio, and excellent dynamic characteristics. In order to explore its dynamic characteristics, the design concept and operating principle of the cartridge 2D EHSV valve is presented first. Then the mathematical model of cartridge 2D EHSV valve is derived, especially the rotational viscous damping coefficient which is studied in detail. The simulation results of the open(closed)-loop model show that the support pressure plays an insignificant role in the dynamic characteristics of 2D EHSV, only the phase bandwidth of the closed-loop model increases. And the rise time of the open-loop model is about 10 ms, and the frequency bandwidth is about 40 Hz, while the rise time is about 4 ms and the frequency bandwidth is about 100 Hz of the closed-loop model. Furthermore, as verified by experimental results, the rising time of the step response is about 7 ms and the bandwidth is approximately 38 Hz under the open-loop control, while that is 6 ms and 117 Hz for 25% input signal under the close-loop control. Finally, the difference between the experiment and the simulation is discussed. It is concluded that the cartridge 2D EHSV has excellent dynamic characteristics.

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Section: Introductionmentioning

confidence: 99%

Theoretical and experimental research on the cartridge two-dimensional (2D) electro-hydraulic servo valve

Zheng

Sheng

Ding

et al. 2021

Advances in Mechanical Engineering

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“…In the honeycomb structure, by changing mass and stiffness of substrate, the flexibility of the piezoelectric structure will be affected which significantly affects its power output. [ 135 ]…”

Section: Fabrication Techniques Of Piezoelectric Sensorsmentioning

confidence: 99%

Advances in Wearable Piezoelectric Sensors for Hazardous Workplace Environments

et al. 2023

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Recent advances in wearable energy harvesting technology as solutions to occupational health and safety programs are presented. Workers are often exposed to harmful conditions-especially in the mining and construction industries-where chronic health issues can emerge over time. While wearable sensors technology can aid in early detection and long-term exposure tracking, powering them and the associated risks are often an impediment for their widespread use, such as the need for frequent charging and battery safety. Repetitive vibration exposure is one such hazard, e.g., whole body vibration, yet it can also provide parasitic energy that can be harvested to power wearable sensors and overcome the battery limitations. This review can critically analyze the vibration effect on workers' health, the limitations of currently available devices, explore new options for powering different personal protective equipment devices, and discuss opportunities and directions for future research. The recent progress in self-powered vibration sensors and systems from the perspective of the underlying materials, applications, and fabrication techniques is reviewed. Lastly, the challenges and perspectives are discussed for reference to the researchers who are interested in self-powered vibration sensors.

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“…Not only can the performance of TENG be affected by the 3D structure, but the mechanical response of PENG is also dependent on the 3D structure. It was proven that the honeycomb structure can affect the response frequency of PENG 25 . Cui et al have designed unique 3D structures that can affect the value and direction of the piezoelectric coefficient and printed the structures with a high‐resolution DLP printer using functionalized lead zirconate titanate (PZT) nanoparticle (3 vol%) and poly(ethylene glycol) diacrylate (PEGDA) monomer ink 26 .…”

Section: D Structure Design For Nanogeneratorsmentioning

confidence: 99%

Three dimensional printed nanogenerators

Zhou

Lee

2021

EcoMat

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In the dawn of energy crisis and rising challenges in powering distributed low energy portable devices, nanogenerators, a class of mechanical energy harvesters is gaining increasing interest in fundamental research and commercial applications. Nanogenerators harvest energy by transducing mechanical energy into electric energy, the performance is highly related to the mechanical and electrical properties of the materials and devices. A typical nanogenerator consists of a substrate, a functional triboelectric active layer, electrode, and separator, which overall built‐up a three dimensional (3D) structure. 3D printing with its ability to form complex 3D structures possess coveted advantages in the development of nanogenerators. In this review, we introduce the importance of 3D structures for nanogenerators and explicitly discuss the different 3D printing methods and the ink formulation to tackle the challenges in 3D structured nanogenerators. Additionally, the principle and application of 4D printing in nanogenerator fabrication are critically highlighted.

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Increased power to weight ratio of piezoelectric energy harvesters through integration of cellular honeycomb structures

Cited by 16 publications

References 37 publications

Theoretical and experimental research on the cartridge two-dimensional (2D) electro-hydraulic servo valve

Theoretical and experimental research on the cartridge two-dimensional (2D) electro-hydraulic servo valve

Advances in Wearable Piezoelectric Sensors for Hazardous Workplace Environments

Three dimensional printed nanogenerators

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