Dehumidified Air Dryer

When drying plastics which emit gases dangerous for human health, take care that the regenera- tion exhaust air is disposed of without polluting the environment. This will prevent danger to peo- ple and material!

Operate the dryer only if there is at least one drying hopper operating. This will prevent damage of material!

Maintenance

Before starting maintenance work, appoint a supervisor.

Inform the responsible personnel before maintenance work on the system is started. Caution: Danger of accidents!

Disconnect the equipment from mains supply before starting maintenance procedures to ensure that it cannot be switched on unintentionally. Caution: Danger of accidents!

All pipes, hoses and screwed connections should be checked regularly for leaks and damage. Any faults which arise should be corrected immediately. Danger of accidents!

Depressurise all compressed air piping before starting maintenance work. Danger of accidents!

The air filters should only be cleaned/replaced when the the main switch is off and the blower has stopped. This avoids injury and damage to equipment!

Any maintenance work on the equipment should only be started when the the main switch is off and the blower has stopped. This avoids injury and damage to equipment!

Check the v-belts of the blower only when the main switch is switched off and the blowers have stopped. Caution: Danger of accidents!

Open drying hoppers only if they are completely empty. Danger of accidents!

Never open drying hoppers while the device is in operation. Danger: Iinjury through burns!

Open drying hoppers only if they have been cooled down sufficiently. Danger: Injury through burns!

Before starting maintenance work wait until the drying cells, drying hoppers and air pipings have been cooled down sufficiently. Avoid touching any of these parts! Danger: Injury through burns!

Remove any granules remaining on the ground. Danger of accidents!

Arrest the wheels after installation if the dryer is mounted on a movable frame. This will prevent danger to people and material!

SM2-625

Safety instructions 2-4

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Sterling STT 800 manual Maintenance

STT 800 specifications

The Sterling STT 800 is an advanced thrust vector control system that has garnered significant attention in the aerospace and defense sectors. Designed to enhance the performance of various aircraft, including drones and missiles, the STT 800 combines cutting-edge technologies and innovative design to provide operators with exceptional maneuverability and precision.

One of the primary features of the Sterling STT 800 is its state-of-the-art thrust vectoring capability. This technology allows the aircraft to change the direction of its thrust, enabling unparalleled agility and control during flight. By directing engine thrust both horizontally and vertically, the STT 800 can perform complex aerial maneuvers that standard aircraft would struggle to achieve. This capability is critical for modern combat scenarios, where quick evasive actions and sharp turns can mean the difference between mission success and failure.

The STT 800 is built with lightweight, robust materials that enhance its durability while minimizing overall weight. This design philosophy ensures that the system remains operable under extreme conditions, including high-speed flight and challenging environmental situations. Advanced materials not only contribute to the overall performance of the system but also improve its resistance to wear and tear.

Another key characteristic of the Sterling STT 800 is its integration with advanced navigation and control systems. The aircraft can utilize GPS, inertial navigation systems, and state-of-the-art avionics to maintain high levels of situational awareness and operational efficiency. This integration enables seamless communication between components, allowing for real-time adjustments and data sharing during flight.

The STT 800 is also designed with modularity in mind, allowing for easy upgrades and the incorporation of future technologies. This adaptability ensures that operators can keep pace with the rapidly evolving landscape of aerospace technology, maintaining a competitive edge in both military and civilian applications.

In addition, the Sterling STT 800 features advanced software algorithms that optimize flight paths and enhance overall efficiency. This intelligent system provides operators with predictive analytics, ensuring that the aircraft can adapt to changing conditions and mission objectives effectively.

Overall, the Sterling STT 800 represents a significant leap forward in thrust vector control technology. With its combination of advanced maneuverability, durable design, sophisticated navigation systems, and modularity, it exemplifies the capabilities required for modern aerial operations and sets a new standard for performance in the aerospace industry.