Welcome to Brise Chemicals
Industrial Air System
Industrial compressed air system design are used in all types of manufacturing industries like automobile, project base, pharmaceutical, oil, and gas industry. A dryer and compressor are utilized for providing moisture-free air.
The industrial air purification system must be free of dust and moisture. It is a safe, permanent, and cost-effective means of provision. It is essential to ensure, that there must not be any cross-connection between systems, every part of the system is specific. Brise Chemicals is Industrial compressed air system design for Industrial purposes.
System Components:
- Dryer
- Filter
- Compressor
- Towers
- Piping
Advantages
- It provides a safe environment for human beings
- Product quality improves
- Continuous uninterrupted production
Selection Guide
| Heatless | -70 °C (-94 °F) | Class 0 | Lowest capital cost and highest life cycle cost amongst desiccant dryers. High maintenance cost due to fast recycling of dryer. Increased air compressor and driver motor size, increased noise, reduced valve life compared to other desiccant dryers. Consumes high amount of purge air (15 % to 20 %). Short drying cycle (5 min to 10 min). Rapid pressurizing and depressurizing time (about 5 s to 10 s). Recommended for low volume flow application (< 1 000 Nm3/h) |
| Heat regenerated (with internal purge) |
-70 °C (-94 °F) | Class 0 | Higher capital cost and lower lift cycle cost than heat less dryer. Purge air consumption (up to 10 %). Long drying cycle (4 h to 8 h) and slow pressurization and depressurization time (6 min). Less likely to achieve pressure dew point of -70 °C (-94 °F) as a standalone dryer under high inlet ambient conditions. |
| Heat regenerated (external blower heated) |
-70 °C (-94 °F) | Class 0 | Higher capital expenditure than heat regenerated dryer with internal purge but lower life cycle cost. Zero purge loss. Long drying cycle (4 h to 8 h) and slow pressurization and depressurization time (6 min). Less likely to achieve pressure dew point of -70 °C (-94 °F) as a standalone dyer under high inlet ambient conditions. |
| Heat of compression | -70 °C (-94 °F) | Class 0 | Lowest life cycle cost, moderate maintenance cost and lowest operating cost amongst desiccant dryers Improved valve life, lowest noise level zero to marginal purge loss. Long drying cycle (4 h to 8 h) and slow pressurization and depressurization time (6 min). |