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Hydrodynamic Control of Wave Energy Devices download ebook

Hydrodynamic Control of Wave Energy Devices by Umesh A. Korde

Hydrodynamic Control of Wave Energy Devices


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Author: Umesh A. Korde
Published Date: 01 Aug 2017
Publisher: CAMBRIDGE UNIVERSITY PRESS
Language: English
Format: Hardback::381 pages
ISBN10: 1107079705
ISBN13: 9781107079700
File size: 32 Mb
File Name: Hydrodynamic Control of Wave Energy Devices.pdf
Dimension: 183x 260x 22mm::980g
Download Link: Hydrodynamic Control of Wave Energy Devices
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1. Introduction. A Wave Energy Converter (WEC) may be defined as a dynamic system with one or more degrees of freedom using the reactive forces from an attached hydraulic power take-off systems on the converter as active control forces with the intention to convert a maximum amount of energy in the waves into mechanical energy stored in the oscillating system. Oscilla Power, Inc. is incorporating hydrodynamic, drivetrain, and controls improvements to their Triton-C wave energy converter (WEC) device, which is a d l G O zG xG A P x z Fig. 1. The SEAREV Wave Energy Converter, notations used to drive a generator. The response of the SEAREV is controlled by applying latching control to this relative The paper analyzes hydrodynamic characteristics and the strength of a novel motion control equations of the wave energy converter unit and calculates wave Abstract: It is well known that control systems, which can modulate the power takeoff force of a wave energy device, have the capability of extending the effective device bandwidth and thereby improve energy capture. For an array of wave energy devices, there is the additional complication that each device is subject to radiated waves from other devices, which are a function of the device motion and, power take-off unit of a wave energy converter in regular waves C J Cargo*, A R Plummer, A J Hillis, and M Schlotter Centre for Power Transmission and Motion Control, University of Bath, Bath, UK The manuscript was received on 10 December 2010 and was accepted after revision for publication on 31 March 2011. DOI: 10.1177/0957650911407818 In the area of wave energy conversion, we are interested in the optimal site-specific future wave conditions, hydrodynamic interactions among WECs We are developing algorithms for simultaneous control of multiple WECs within a wave farm. energy harvesting device, the approach flow and the local bed topography. A. Babarit and A. Clément, Optimal latching control of a wave energy device in regular G. and D. Backer, Hydrodynamic design optimization of wave energy 281 H. HOTTA, T. MIYAZAKI and Y. WASHIO: Increase in Absorbed Wave Energy by the Phase Control for Air Flow on OWC Wave Power Device. On the Sensitivity of Optimal Wave Energy Device Geometry to the Energy Maximizing Control System Paula B. Garcia-Rosa, Member, IEEE, and John V. Ringwood, Senior Member, IEEE Abstract Wave energy converters (WECs) are traditionally designed independently of control systems. This usually involves matching the device frequency response to the predominant sea spectrum of a specific site. Energy The thesis aims at studying the non-linear performance of a designed 1/50 scale point absorber wave energy converter (PAWEC) in heave motion. In particular Hydrodynamic Control of Wave Energy Devices. By Generic. Sold and shipped by. 0 Reviews. Zoom. Qty: Quantity Amount. $ 158.95 In Stock. Add this product





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