Internal Float Drains | UMADV250-F8S13

Internal Float Drains are essential components in condensate systems, designed to efficiently remove moisture and liquid contaminants from compressed air and steam systems. Their primary function is to collect condensate, preventing water accumulation that can lead to operational inefficiencies. These drains are typically used in applications such as compressed air networks, air dryers, filtration units, boiler installations, and various industrial processing equipment. By ensuring effective condensate removal, Internal Float Drains protect equipment, reduce downtime, improve air quality, and enhance overall system performance. With a robust design suitable for a temperature range of 5-60°C, these drains are compatible with PARKER systems, making them a reliable choice for engineers and maintenance teams seeking to optimise their operations.

Features

• Efficient moisture removal to enhance system performance.
• Automatic drainage feature ensures continuous operation without manual intervention.
• Constructed with corrosion-resistant materials for longevity in harsh environments.
• Reliable operation under varying temperature conditions from 5-60°C.
• Durable design withstands the rigours of industrial applications.
• Optimised for effective condensate handling, reducing downtime.
• Compatible with PARKER systems for seamless integration.
• Compact design allows for easy installation in tight spaces.

Applications

• Efficient condensate removal in compressed air systems to prevent moisture accumulation and maintain system performance.
• Integration with refrigeration equipment to manage condensate from evaporators, ensuring optimal cooling efficiency.
• Utilisation in steam boilers for effective drainage of condensate, enhancing energy recovery and system reliability.
• Application in air dryers to eliminate moisture, preventing corrosion and extending the lifespan of downstream equipment.
• Incorporation into filtration systems to manage condensate and maintain filter efficiency in industrial processes.
• Deployment in industrial process lines to ensure consistent operation by removing excess condensate from various stages.
• Utilisation in pneumatic systems to prevent water build-up, ensuring reliable operation of actuators and valves.
• Integration in HVAC systems to manage condensate from cooling coils, improving indoor air quality and system efficiency.