NEWS CENTER

2026-06-07

Quick Checklist for Troubleshooting Pulverized Ore Silo Blockages

1. First, assess the material’s dryness or moisture content. 2. Observe the flow characteristics of the discharged material. 3. Consider weather conditions and storage duration. 4. Verify that air cannons and vibrators are functioning properly. 5. Measure the cone angle, discharge port dimensions, and material buildup on the silo walls. 6. Review and analyze previous feeding and discharging operating practices.

2026-06-07

Analysis of Clogging Issues in the Fine Ore Silo and Implementation Plan for Technical Retrofitting

The use of equipment with single-point vibration or uneven vibratory force is prohibited to prevent localized blockages and residual rodent‑induced flow deviations. Fixed‑parameter, non‑adjustable‑frequency models are also banned, as they cannot accommodate the fluctuating dry‑wet conditions typical of fine‑ore handling. High‑power, high‑impact units should be strictly avoided to prevent compaction and caking of the material above. Overall, selection should adhere to the principles of symmetrical excitation, precise arch‑breaking, adjustable and controllable operation, and wear‑resistance combined with explosion‑proof design, ensuring long‑term, stable performance in addressing wall adhesion, arching, and material‑flow interruptions in fine‑ore silos.

2026-06-07

Product Categories of Silo Arch-Breaking and Unblocking Equipment

The series of silo‑clearing and discharge machines is specifically designed to address common issues encountered during storage—such as arching, wall adhesion, material blockages, uneven discharging, and residual buildup—for powders, granular materials, and moist substances. Featuring high versatility and stable operation, these systems are widely applicable across mainstream industrial sectors, including mining and metallurgy, coal and coking, new building materials, chemical powder processing, and environmental solid‑waste management, meeting production requirements for automated anti‑blocking, continuous clearing, and reliable, consistent discharge in various types of hoppers.

2026-06-07

Comprehensive Solution for Silo Arching and Blockage

Fundamentally resolving arching and blockage in storage bins requires a coordinated approach across four dimensions: material characterization, bin design, auxiliary equipment, and intelligent control. There is no one-size-fits-all solution—each project features unique material properties, bin geometry, operating conditions, and budgetary constraints, necessitating a tailored design based on thorough diagnostics.

2026-06-07

Intelligent Monitoring and Early Warning System for Bin Arching

Intelligent monitoring and predictive early-warning systems represent the future of silo management, leveraging multi-sensor fusion, AI analytics, and automated control to drive a fundamental shift from reactive response to proactive prevention. As the cost of IIoT technologies continues to decline, the value of such systems in promoting adoption among small and medium-sized enterprises is becoming increasingly evident.

2026-06-07

Material Property Improvement and the Application of Flow Aid Agents

Improving material properties is the most fundamental approach in arching‑prevention systems. Particularly for arching caused by moisture content, stickiness, or particle shape, prioritizing measures at the material level—such as drying, granulation, and the addition of flow aids—is often more cost‑effective than investing in arch‑breaking equipment. It is recommended to conduct a systematic flowability assessment at the very outset of new product or process development, integrating arching‑prevention strategies into the process design rather than treating them as reactive measures during operations.

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