Essential to a wide range of industrial processes and mechanical operations, securing a cost-efficient nitrogen gas is often an integral part of system engineering. However, conventional methods such as high-pressure cylinders, liquid tanks and bulk storage involve significant logistical issues and increase costs. Membrane separation presents an economic alternative which enables on-site nitrogen generation from the air we breathe -78% of which is nitrogen at sea level.
Why Membrane for Nitrogen?
- Only requires compressed air to provide high-concentration nitrogen
- Mobile unit to easily move installation place
- No noise as separation can be carried out continuously
- Compact size only requires minimal space
- Can be installed either vertically or horizontally
- Does not require additional power supply for nitrogen generator
Just as we can’t breathe without oxygen, many industrial and engineering processes require high-concentration oxygen as an essential ingredient. There are, however, also a wide range of applications where lower concentration of oxygen is sufficient without the expensive costs and risk of managing high-concentration oxygen supply. Membrane technology thus presents a cost-effective and safe alternative to high-pressure oxygen cylinders by enabling on-site oxygen generation for a variety of facilities such as clinical uses and air conditioning. Onsite Nitrogen Generation Korea
Water is essential to life, but water vapor in air can be damaging too many facilities and processes. From pharmaceutical plants too electronically and chemical manufacturing, food and beverage production and medical equipment, the need for dehumidification is almost universal across all industries. Membrane separation is widely employed as a drying method of choice for its versatility and economic efficiency. Able to cover a broad range of varying conditions and requirements, membrane technology is fit to be your first option for dehumidification.
Why Membrane for Dehumidification?
- Easy and versatile installation in all positions
- Immediate operation without any lag time
- Low energy consumption without additional power supply
- Uninterrupted operation cycle
- Eco-friendly process without CFCs/FCs
- Minimal maintenance requirement
