Waste to Energy / AFR Handling Grabbing Crane
Description
MELTECH Waste-to-Energy (WTE) Cranes are critical components in facilities that convert municipal solid waste into usable energy. These cranes are specifically engineered for continuous, automated waste handling operations, making them a backbone of efficient and safe waste processing.
Applications
- Receiving and storing waste
- Mixing and homogenizing heterogeneous waste
- Feeding waste to the furnace hopper in a controlled and automated manner
Key Features of WTE Cranes
- High Automation: Most WTE cranes are fully automated or remote-controlled, designed to operate 24/7 with minimal human intervention.
- Durability and High Duty Cycles: Built to withstand abrasive, corrosive, and odorous materials while maintaining performance during continuous operation.
- Integrated Controls and Monitoring: Real-time data, diagnostics, and performance tracking support predictive maintenance and optimization.
- Specialized Grabs: Equipped with multi-jaw orange-peel or clamshell grabs for lifting diverse and heavy waste efficiently and safely.
Ash Handling Cranes
MELTECH Ash Handling Grabbing Cranes are specialized overhead cranes used in WTE plants for collecting, transferring, and disposing of abrasive, high-temperature ash. These cranes are equipped with heavy-duty, electro-mechanically operated 4-rope clamshell grab buckets, ensuring reliable performance in extremely harsh and dusty environments.
Continuous ash removal prevents clogging and operational downtime, making these cranes essential for maintaining plant productivity and compliance with environmental regulations.
MELTECH Waste-to-Energy Cranes are a vital element in modern energy recovery and sustainable waste management. With advanced automation, robust construction, and intelligent control systems, these cranes help facilities achieve high throughput, efficiency, and environmental compliance. As global demand for clean energy and efficient waste disposal continues to rise, Meltech WTE cranes remain central to the future of green energy operations.