Difference between revisions of "Fahim Adi Pratama"
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ilmu dibentuk untuk mengenal diri sendiri lebih dalam. ilmu memberikan kita dalam berfikir dimana hati yang memerintah dan otak yang berjalan dimana hati yang memerintah otak untuk melakukan sesuatu. dimana komputer memerintah dan melakukan sesuatu . | ilmu dibentuk untuk mengenal diri sendiri lebih dalam. ilmu memberikan kita dalam berfikir dimana hati yang memerintah dan otak yang berjalan dimana hati yang memerintah otak untuk melakukan sesuatu. dimana komputer memerintah dan melakukan sesuatu . | ||
proses kita sebenarnya yaitu numerical proses ini semua hanya pendekatan yang exact hanya menciptakan kita. | proses kita sebenarnya yaitu numerical proses ini semua hanya pendekatan yang exact hanya menciptakan kita. | ||
| + | |||
| + | == Design and Optimization of Pressurized Hydrogen Storage System == | ||
| + | |||
| + | A Pressurized Hydrogen System is a system designed to store hydrogen gas at elevated pressure levels. This system enables the storage and transportation of hydrogen in its gaseous state, typically by compressing it to enhance its energy density. | ||
| + | |||
| + | Specification | ||
| + | |||
| + | - Volume : 1 L | ||
| + | - Pressure : 8 Bar | ||
| + | - Cost : Rp 500.000 | ||
| + | |||
| + | Designing a hydrogen system requires careful consideration to ensure both safety and efficiency. If you are using Google to learn about the steps involved in creating a hydrogen system, here are the key steps typically followed: | ||
| + | Determine the Capacity and Size: | ||
| + | |||
| + | Decide how much hydrogen you want to store in the tank. This capacity will affect the size and dimensions of the tank. Also, consider the energy requirements that the hydrogen will provide. In this case, the tank has to be 1-Liter Sized. | ||
| + | |||
| + | Select Tank Material | ||
| + | |||
| + | Hydrogen tanks are typically made from materials that are strong and capable of withstanding high pressures. Common materials used include alloy steel or carbon fiber reinforced with epoxy resin. Make sure the selected material has sufficient resistance to hydrogen corrosion. | ||
| + | |||
| + | Determine Working Pressure | ||
| + | |||
| + | Hydrogen can be stored in tanks either in compressed form or as a liquid. For compression storage, determine the working pressure based on your application needs. Higher working pressures require tanks with thicker and stronger walls. | ||
| + | |||
| + | Design Tank Structure | ||
| + | |||
| + | Hydrogen tanks usually have a cylindrical design with end caps. In the design, consider structural strength, tank mass, and thermal performance to avoid leaks or structural failures. | ||
| + | |||
| + | Consider Safety Systems | ||
| + | |||
| + | Safety is a critical aspect of hydrogen tank design. Ensure that the tank is equipped with pressure relief valves, and other necessary safety features to reduce the risk of hazards or accidents. | ||
| + | |||
| + | Cost Optimization | ||
| + | |||
| + | Minimize costs by considering factors such as material selection, manufacturing processes, and economies of scale because in this case the maximum cost to spend is Rp 500.000. Explore different manufacturing techniques, such as filament winding or automated fiber placement, to optimize production costs. | ||
| + | |||
| + | Test and Validation | ||
| + | |||
| + | Once the design is complete, conduct testing and validation to ensure the tank meets the required standards and safety regulations. Pressure tests, leak tests, and strength tests are some examples of tests that can be performed. | ||
Revision as of 14:32, 2 June 2023
Resume 26/05/2023
Terdapat hal paling penting : metode numerik merupakan seuatu non fisik yang berkaitan dengan penyelesaian masalah dengan mengutamakan sistematis. metode numerik sangat membantu dalam menyelesaikan permasalahan dalam pembuatan kapal . baik dari badan kapal hingga permesinan kapal. sekarang sudah dibuat 2 sistem yang sampai sekarang masih gagal.
dari connseissnes merangkum dari metode numerik, metode matematika dan lain lain. ini adalah power full itu adalah realitas yang mendasar . conssisness ialah kesadaran. kecepatan cahaya merupakan sesuatu kecepatan yang paling cepat. ketika elektron spining, kalau disini elektron spinning up . akan mempengaruhi elektron dari planet yang lain. itu adalah contoh teori .
contoh cara berfikir sederhana seperti 1/0 atau (x-1)(x-1) dan lain lainnya. metode numerik di bentuk oleh para ilmuan jadi isinya teori teori yang dibuat oleh pembuatnya ( manusia ) sedangkan kitab suci di bentuk oleh tuhan melewati perantara manusia. ilmu dibentuk untuk mengenal diri sendiri lebih dalam. ilmu memberikan kita dalam berfikir dimana hati yang memerintah dan otak yang berjalan dimana hati yang memerintah otak untuk melakukan sesuatu. dimana komputer memerintah dan melakukan sesuatu . proses kita sebenarnya yaitu numerical proses ini semua hanya pendekatan yang exact hanya menciptakan kita.
Design and Optimization of Pressurized Hydrogen Storage System
A Pressurized Hydrogen System is a system designed to store hydrogen gas at elevated pressure levels. This system enables the storage and transportation of hydrogen in its gaseous state, typically by compressing it to enhance its energy density.
Specification
- Volume : 1 L - Pressure : 8 Bar - Cost : Rp 500.000
Designing a hydrogen system requires careful consideration to ensure both safety and efficiency. If you are using Google to learn about the steps involved in creating a hydrogen system, here are the key steps typically followed: Determine the Capacity and Size:
Decide how much hydrogen you want to store in the tank. This capacity will affect the size and dimensions of the tank. Also, consider the energy requirements that the hydrogen will provide. In this case, the tank has to be 1-Liter Sized.
Select Tank Material
Hydrogen tanks are typically made from materials that are strong and capable of withstanding high pressures. Common materials used include alloy steel or carbon fiber reinforced with epoxy resin. Make sure the selected material has sufficient resistance to hydrogen corrosion.
Determine Working Pressure
Hydrogen can be stored in tanks either in compressed form or as a liquid. For compression storage, determine the working pressure based on your application needs. Higher working pressures require tanks with thicker and stronger walls.
Design Tank Structure
Hydrogen tanks usually have a cylindrical design with end caps. In the design, consider structural strength, tank mass, and thermal performance to avoid leaks or structural failures.
Consider Safety Systems
Safety is a critical aspect of hydrogen tank design. Ensure that the tank is equipped with pressure relief valves, and other necessary safety features to reduce the risk of hazards or accidents.
Cost Optimization
Minimize costs by considering factors such as material selection, manufacturing processes, and economies of scale because in this case the maximum cost to spend is Rp 500.000. Explore different manufacturing techniques, such as filament winding or automated fiber placement, to optimize production costs.
Test and Validation
Once the design is complete, conduct testing and validation to ensure the tank meets the required standards and safety regulations. Pressure tests, leak tests, and strength tests are some examples of tests that can be performed.
