- Definition and Types of Energy
- Myths And Misconceptions About Energy
- The Relationship Between Energy and Environment
- Climate Change and Carbon Footprint
- Greenhouse Gas Effect
- The Role of Human-Induced Greenhouse Gases and Energy Consumption
- Energy Efficiency and Sustainability
- Renewable Energy Sources and Future Perspectives
- Play and Learn
- Solar Energy Conversions
- Solar Energy Worldwide
- Solar Energy in Partner Countries
- Positive and Negative Impacts
- Technologies for Harnessing Solar Energy
- Solar thermal energy technologies and applications
- Electricity Generation Methods
- Passive Heating and Cooling of Residences with the Sun
- Concentrator solar power (CSP) systems and electricity generation
- Systems and applications that generate electricity directly from solar rays
- Photovoltaic cells and panels
- Domestic PV Systems
- Off-Grid PV Systems
- Hybrid Connected Systems
- Materials Used in PV Cells
- Play and Learn
Purification of Hydrogen
Various purification methods are used to obtain only pure hydrogen in the gas mixtures that emerge during hydrogen production. These methods increase the purity of hydrogen, allowing it to be used more efficiently and safely.
🔬 Pressure Swing Adsorption (PSA)
The hydrogen in the gas mixture is purified by passing it through special filters. This method is one of the most widely used methods for obtaining high-purity hydrogen.
🧪 Gas Filtration (Membrane Technology)
Separation is done by filtering hydrogen molecules through special membranes (membranes). This method is energy-efficient and quick.
🌫️ Adsorption
Solid surfaces attract certain gases, allowing hydrogen to be separated from other gases.
🧫 Absorption
Chemical solutions help purify hydrogen by retaining certain gases.
🔥 Distillation
Hydrogen is separated by taking advantage of the differences in the boiling points of different gases.