Difference between revisions of "Muhammad Ikhsan Rahadian"

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(Created page with "== '''Biodata''' == Assalamualaikum. Wr. Wb Selamat pagi, siang, sore, malam. Hello, my name is Ikhsan, currently studying Mechanical Engineering at The University of Indon...")
 
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'''E-mail''': ikhsan.sony2@gmail.com
 
'''E-mail''': ikhsan.sony2@gmail.com
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== Case Study of Hydrogen Storage Optimization ==
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A pressurized hydrogen tank is a specialized container designed to store hydrogen gas at high pressures. These tanks are essential for the safe storage and transport of hydrogen, which is a highly flammable and low-density gas. Pressurizing hydrogen increases its energy density and allows for more efficient storage and utilization in various applications.
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Usually, materials that can withstand high pressures are used to build pressurized hydrogen tanks. These materials offer the strength and durability needed to hold the hydrogen gas under high pressure.
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Pressurized hydrogen tanks are used in various industries and applications such as fuel cell vehicles, energy storage, and industrial process.
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In this class, our goal is to improve and optimize the pressurized hydrogen tank's design to withstand an 8-bar pressure and hold 1 liter of hydrogen.

Revision as of 11:16, 30 May 2023

Biodata

Assalamualaikum. Wr. Wb Selamat pagi, siang, sore, malam. Hello, my name is Ikhsan, currently studying Mechanical Engineering at The University of Indonesia. This blog was made for Numerical Method KKI that I took this semester with Pak DAI as the lecturer.

Foto ts.jpeg

Name: Muhammad Ikhsan Rahadian

Date of Birth: Agustus 8th, 2002

NPM: 2106656882

Major: Mechanical Engineering

E-mail: ikhsan.sony2@gmail.com


Case Study of Hydrogen Storage Optimization

A pressurized hydrogen tank is a specialized container designed to store hydrogen gas at high pressures. These tanks are essential for the safe storage and transport of hydrogen, which is a highly flammable and low-density gas. Pressurizing hydrogen increases its energy density and allows for more efficient storage and utilization in various applications. Usually, materials that can withstand high pressures are used to build pressurized hydrogen tanks. These materials offer the strength and durability needed to hold the hydrogen gas under high pressure. Pressurized hydrogen tanks are used in various industries and applications such as fuel cell vehicles, energy storage, and industrial process. In this class, our goal is to improve and optimize the pressurized hydrogen tank's design to withstand an 8-bar pressure and hold 1 liter of hydrogen.