Post by account_disabled on Mar 13, 2024 0:34:29 GMT -8
Hydrogen continues to gain popularity as a low-carbon energy source with great potential. Here's proof: The European Commission aims to produce 10 million tons and import 10 million tons of renewable hydrogen into the European Union by 2030. On the other hand, analysts predict that sales of hydrogen electrolyzers in China will double plenty in , as the country continues to roll out green hydrogen projects. The widespread use of hydrogen as an energy source depends on increasing production capacity and reliability. And to achieve this we must start at the heart of the hydrogen production facility with optimal electrolyzers. Electrolyzers do the important job of converting water and electricity into hydrogen and oxygen.
To do this job most effectively and efficiently, the electrolyzer needs a reliable supply of water and an efficient outlet of the resulting hydrogen and oxygen gases. This means that the fluid systems that perform these functions are of vital importance when designing new hydrogen production facilities. Let's take a closer look at how your fluid systems can decisively influence the safety, productivity BYB Directory and profitability of a hydrogen production plant.As a new hydrogen production plant moves toward commissioning, all critical fluid systems undergo factory acceptance testing (FAT). This process includes inspection and qualification testing of system equipment (or major components) performed and documented at a supplier's facility.
For hydrogen fluid systems, the process typically involves passing a benign test fluid (typically nitrogen) through the system at increasingly higher pressures to determine the location and volume of any leaks. Even the smallest leaks can lead to inefficient use of resources as water flows into the electrolyzer. And because oxygen and hydrogen are processed outside, leaks can result in the loss of valuable product and potentially create a safety risk. These problems also take time to solve. Minimizing leaks from the start through proper design can help your new hydrogen production facility run smoothly.
To do this job most effectively and efficiently, the electrolyzer needs a reliable supply of water and an efficient outlet of the resulting hydrogen and oxygen gases. This means that the fluid systems that perform these functions are of vital importance when designing new hydrogen production facilities. Let's take a closer look at how your fluid systems can decisively influence the safety, productivity BYB Directory and profitability of a hydrogen production plant.As a new hydrogen production plant moves toward commissioning, all critical fluid systems undergo factory acceptance testing (FAT). This process includes inspection and qualification testing of system equipment (or major components) performed and documented at a supplier's facility.
For hydrogen fluid systems, the process typically involves passing a benign test fluid (typically nitrogen) through the system at increasingly higher pressures to determine the location and volume of any leaks. Even the smallest leaks can lead to inefficient use of resources as water flows into the electrolyzer. And because oxygen and hydrogen are processed outside, leaks can result in the loss of valuable product and potentially create a safety risk. These problems also take time to solve. Minimizing leaks from the start through proper design can help your new hydrogen production facility run smoothly.