A variable inertia vibration energy harvester / Peter Ehab Ayad Ibrahim ; Supervised Yasser H. Anis , Mustafa H. Arafa

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Peter Ehab Ayad Ibrahim

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TextLanguage: English Publication details: Cairo : Peter Ehab Ayad Ibrahim , 2019Description: 81 P. : charts , facsimiles ; 30cmOther title:

ضبط حاصدات الطاقة بواسطة القصور الذاتي المتغير [Added title page title]

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Dissertation note: Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mechanical Design and Production Summary: In this thesis, a novel variable inertia electromagnetic vibration energy harvester is presented. The device is based on a base-excited cantilever with a tip mass whose effective moment of inertia can be adjusted through changing its angular position with respect to the beam. The device is modeled analytically to obtain its natural frequency as a function of the design parameters. The model is also used to predict the device{u2019}s dynamic response and power output. For autonomous operation, a sensor is used to measure the operating frequency and is used in conjunction with a microcontroller to continuously adjust the position of the tuning masses by a servomotor to achieve resonance. A parametric study is performed to investigate the effect of different system parameters on the tunability. Findings of the theoretical model are verified experimentally

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Item type	Current library	Home library	Call number	Copy number	Status	Barcode
Thesis	قاعة الرسائل الجامعية - الدور الاول	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.13.M.Sc.2019.Pe.V (Browse shelf(Opens below))		Not for loan	01010110078324000
CD - Rom	مخـــزن الرســائل الجـــامعية - البدروم	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.13.M.Sc.2019.Pe.V (Browse shelf(Opens below))	78324.CD	Not for loan	01020110078324000

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Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Mechanical Design and Production

In this thesis, a novel variable inertia electromagnetic vibration energy harvester is presented. The device is based on a base-excited cantilever with a tip mass whose effective moment of inertia can be adjusted through changing its angular position with respect to the beam. The device is modeled analytically to obtain its natural frequency as a function of the design parameters. The model is also used to predict the device{u2019}s dynamic response and power output. For autonomous operation, a sensor is used to measure the operating frequency and is used in conjunction with a microcontroller to continuously adjust the position of the tuning masses by a servomotor to achieve resonance. A parametric study is performed to investigate the effect of different system parameters on the tunability. Findings of the theoretical model are verified experimentally

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