Hydrogen is also found in many organic compounds, notably the hydrocarbons that make up many of our fuels, such as gasoline, natural gas, methanol, and propane. Hydrogen can be separated from hydrocarbons through the application of heat - a process known as reforming . Currently, most hydrogen is made this way from natural gas. An electrical current can also be used to separate water into its components of oxygen and hydrogen. This process is known as electrolysis . Some algae and bacteria, using sunlight as their energy source, even give off hydrogen under certain conditions.
Haskel’s latest innovation, the H-Drive Hydraulic Driven Gas Booster, offers superior design and ease of integration. The H-Drive gas booster series sets the standard for functionality, availability and reliability. The modular design is available in single booster units or integrated into a complete skid assembly. Applications Designed primarily for Hydrogen Gas Compression, the booster is ideal for hydrogen high-pressure gas storage and refueling, and delivers everything you have come to expect from the world’s leader in high-pressure generation