Ariq Dhifan

Introduction

Name: Ariq Dhifan

NPM: 2106657323

Major: Mechanical Engineering KKI

DoB: 22 June 2003

E-mail: ariqdhifan7@gmail.com

Assalamualaikum Hello Everyone! My name is Ariq Dhifan, an undergradute student majoring in Mechanical Engineering at Universitas Indonesia. Currently I am taking Numerical Method class with Pak DAI as my lecturer.

Case Study of Pressurized Hydrogen Storage

In order to improve the density of hydrogen gas and make it suitable for use as a fuel or energy carrier, pressurized hydrogen storage is a technique. Since hydrogen is a light and low-density gas, it must be compressed to reach usable storage levels.

Greater amounts of hydrogen may be kept in a given volume by being stored at high pressures. Its transportation and usage in several applications, including fuel cell cars, business operations, and power production, are made easier by the greater density.

The following are some essentials of pressurized hydrogen storage:

Storage Tanks: High-strength storage tanks that are specially made to resist the high pressure are often used for pressurized hydrogen storage. The materials used to construct these tanks are able to endure the tensions

Pressure Levels: Depending on the purpose, several pressure levels may be used for pressurized hydrogen storage. 350 bar (5,076 psi) and 700 bar (10,152 psi) are typical pressure ranges, with the latter being more frequently employed in vehicle fuel cell systems.

Safety considerations: Because hydrogen storage is high-pressure, safety precautions must be taken with great care. To guarantee their integrity and stop leaks or failures, storage tanks must be designed, produced, and inspected in accordance with strict safety regulations. To reduce the dangers connected with storing high-pressure hydrogen, proper handling, transportation, and maintenance procedures are essential.