Alvin Tanoto
HAI, ALL Perkenalkan nama saya Alvin Tanoto akrab dipanggil alvin dari mesin angkatan 2021 dengan NPM 2106640064, disini siap menimba ilmu! ππππ
Design & Optimization of Pressurized Hydrogen Storage
A 1-liter hydrogen storage design that is budget-friendly must carefully take into account a number of variables. Here are some ideas to assist you come up with a design concept and optimize it for hydrogen storage at 8 bar pressure with a 1 liter capacity and a maximum spending limit of Rp500,000.
1. Budget-friendly Testing Select lightweight materials that are both affordable and able to endure high pressure. Aluminum alloys or composite materials like carbon fiber reinforced polymers (CFRP) may be suitable choices.
2. Material choice Select lightweight materials that are both affordable and able to endure high pressure. Aluminum alloys or composite materials like carbon fiber reinforced polymers (CFRP) may be suitable choices.
3. Tank Design To use less material while preserving structural integrity, choose a cylinder shape with reinforced walls. To guarantee that the tank can bear the desired pressure of 8 bar, perform a complete stress study.
4. Economical Filling System Consider a simple and cost-efficient filling system. Use standard fittings and connectors to minimize costs. An easy-to-use and secure filling mechanism will ensure safe and efficient refilling of hydrogen.
5. Efficient Sealing Choose an appropriate sealing mechanism to minimize hydrogen leakage. Rubber O-rings or gaskets can provide a reliable and cost-effective seal.
6. Safety Measures Ensure the tank design includes safety features such as a pressure relief valve, burst disk, or a pressure regulator. These components help prevent over-pressurization and ensure safe operation of the system.
Keep in mind that it's essential to prioritize safety and guarantee compliance with necessary requirements while maximizing within a constrained budget. Additionally, speaking with hydrogen storage professionals and looking for nearby sources of materials and components may help you locate affordable solutions catered to your unique needs.
For your information i will add a small knowledge that i know from learning in fire safety analysis class (Analisis Keselamatan Kebakaran) When it comes to hydrogen storage, safety considerations include:
Leak Prevention: Ensuring that the storage system is designed and built to prevent hydrogen leakage, as hydrogen is a highly flammable and potentially explosive gas.
Pressure Regulation: Properly regulating the pressure within the storage system to prevent over-pressurization, which can lead to structural failure or rupture.
Ventilation: Providing adequate ventilation to prevent the accumulation of hydrogen gas, which could reach flammable concentrations.
Fire Safety: Implementing measures to mitigate the risk of fire, such as incorporating fire-resistant materials and ensuring proper separation from potential ignition sources.
Explosion Prevention: Incorporating safety devices like pressure relief valves, burst disks, or explosion-proof enclosures to protect against excessive pressure buildup.
Training and Education: Providing comprehensive training and education to individuals involved in the handling and storage of hydrogen to ensure they are aware of safety protocols and best practices.
Compliance with Regulations: Adhering to local, national, and international safety regulations and standards that govern the storage and handling of hydrogen.
By implementing these safety measures and following best practices, the risks associated with hydrogen storage can be effectively mitigated, ensuring the safety of both individuals and the surrounding environment.
