Muhammad Alvito Bintang Safero

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Design and Optimization of 1-Litre Pressurized Hydrogen Storage with 8 Bar Pressure Capability

Designing a 1-litre pressurized hydrogen storage system with the ability to hold a pressure of 8 bars within a budget of 500,000 Indonesian Rupiah (IDR) presents a challenge. In this essay, we will explore the considerations and possibilities of designing an efficient and cost-effective hydrogen storage system that meets the pressure requirement while staying within the given budget constraints.

Material Selection: Selecting suitable materials is crucial to ensure the storage system's structural integrity and safety at the desired pressure level, while also considering cost-effectiveness:

a. Steel: Steel can be a cost-effective choice for the storage vessel. It provides good strength and durability while being readily available and affordable. It is important to select a steel grade that is suitable for high-pressure applications to ensure safety and reliability.

b. Polymer Liners: Incorporating a polymer liner can provide an additional layer of protection against corrosion and enhance the overall integrity of the storage system. Polymer liners can be cost-effective while maintaining compatibility with the selected steel material.

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