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Fold Structure Detection Analysis during Inflation and Deflation Process on Bladder Reservoir of Ocean Grazer using 3D Finite Element Method

Kuncorojati, Adityo (2020) Fold Structure Detection Analysis during Inflation and Deflation Process on Bladder Reservoir of Ocean Grazer using 3D Finite Element Method. Research Project, Industrial Engineering and Management.

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Abstract

The world’s needs of green energy have become more prominent in recent years due to the global commitment of limiting carbon emission in the coming decades. While carbon-based fuels remain one of the major energy sources in the world, recent technological advances in renewable energy sources have offered promising low-cost alternative to carbon-based energy sources. Ocean Grazer is one of the new green energy. It is an offshore hybrid energy harvester that combines wind power, wave movement, and hydrostatic pressure to transform it into electricity power. The bladder reservoir is one of the Ocean Grazer sub-systems, the so-called Ocean Battery systems, which operates as an energy storage on the bottom of the sea and be an energy storage by using hydrostatic pressure of seawater. Due to the presence of folds of bladder reservoir in the first Ocean Battery’s design experimental lab test, a new design has been proposed to minimize the fold structure along the membrane because folds can shorten the lifetime of part. However, it is still not yet known what type of the simulation method for fold detection analysis before doing an experimental study. Therefore, the aim of study is to define what method that is suitable for fold detection simulation and to determine whether the new bladder reservoir design has fewer folds than the first one.

Item Type: Thesis (Research Project)
Supervisor name: Jayawardhana, B.
Degree programme: Industrial Engineering and Management
Thesis type: Research Project
Language: English
Date Deposited: 28 May 2020 08:08
Last Modified: 28 May 2020 08:08
URI: https://fse.studenttheses.ub.rug.nl/id/eprint/21973

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