Energy harvesting from windinduced vibrations / Mohammed Ali Mohammed Abdelnaby ; Supervised Mohammed Elsayed Elaraby , Mustafa Hani Arafa

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Mohammed Ali Mohammed Abdelnaby

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Material type: Text

TextLanguage: English Publication details: Cairo : Mohammed Ali Mohammed Abdelnaby , 2014Description: 432 P. : plans , facsimiles ; 30cmOther title:

حصاد الطاقة من الإهتزازات الناجمة عن الرياح [Added title page title]

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Dissertation note: Thesis (Ph.D.) - Cairo University - Faculty of Engineering - Department of Mechanical Design and Production Summary: The aim of this work is to exploit flow - induced vibration for energy harvesting. A cantilever beam carrying a tip mass in the form of a lightweight box having a square, triangular, or semicircular cross - section is designed to undergo galloping oscillations when subjected to an incoming wind stream. Electrical power is extracted from the self - excited flexural vibration of the beam through an electromagnetic generator. A theoretical model is developed to predict the system dynamics in terms of its design parameters. The results are supported by experimental measurements over a range of load resistance

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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.Ph.D.2014.Mo.E (Browse shelf(Opens below))		Not for loan	01010110064153000
CD - Rom	مخـــزن الرســائل الجـــامعية - البدروم	المكتبة المركزبة الجديدة - جامعة القاهرة	Cai01.13.13.Ph.D.2014.Mo.E (Browse shelf(Opens below))	64153.CD	Not for loan	01020110064153000

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Thesis (Ph.D.) - Cairo University - Faculty of Engineering - Department of Mechanical Design and Production

The aim of this work is to exploit flow - induced vibration for energy harvesting. A cantilever beam carrying a tip mass in the form of a lightweight box having a square, triangular, or semicircular cross - section is designed to undergo galloping oscillations when subjected to an incoming wind stream. Electrical power is extracted from the self - excited flexural vibration of the beam through an electromagnetic generator. A theoretical model is developed to predict the system dynamics in terms of its design parameters. The results are supported by experimental measurements over a range of load resistance

Issued also as CD

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