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Solving Transfer Chute-Related Problems with Ansys Rocky

Transfer chutes play an important part in the proper operation of bulk material handling systems. However, these critical components frequently confront a variety of problems, which can contribute to operating inefficiencies and increased maintenance costs. Ansys Rocky, a sophisticated Discrete Element Method (DEM) tool, provides strong answers to these issues by precisely modelling material behaviour and interactions within the chute. This blog delves into typical transfer chute concerns and how Ansys Rocky can efficiently resolve them.

Transfer Chute Problems

1. Chute Plate Puncture Due to Impact or Abrasive Wear

Punctures in transfer chute plates are often caused by impact or abrasive wear from material handling. This damage might result in costly repairs and downtime.

2. Spillage at Discharge Section

Uncontrolled material flow generated by a poorly built discharge section frequently results in spillage, posing safety risks and material loss.

3. Non-Centralized or Peripheral Discharge

A non-centralized or peripheral discharge can create conveyor belt wobble, resulting in uneven wear and possible operational disturbances.

4. Jamming at Certain Sections

Jamming is common in sections with smaller cross-sections or when handling materials with high moisture content, resulting in obstructions and lower efficiency.

How Can Ansys Rocky Fix This?

1. Granular Mechanics-Driven Simulations

Ansys Rocky calculates each granule or particle’s behaviour, as well as its interactions with the chute plate and other particles, using the Discrete Element Method (DEM). This enables the prediction of ideal material trajectories by studying millions of particles at the same time using hardware capabilities.

2. Detailed Monitoring of Equipment Working

Rocky carefully monitors the equipment’s operation using basic inputs such as feed rate, lump size, belt speed, and bulk density, providing insights that might assist improve performance.

3. Cost-Effective Prototyping and Redesign

Rocky simulations save prototype costs by allowing virtual testing and redesign of equipment, which reduces the need for real trials.

4. Comprehensive Data Analysis

The software offers extensive information on forces, energy, velocities, and other characteristics at all times, assisting in identifying and resolving equipment issues.

Do I Really Need Ansys Rocky for This? Can’t I Fix It with Traditional Methods?

1. Real-Time Material Behaviour Monitoring

Rocky provides brief insights on material behaviour, enabling for forecasts of equipment longevity and planning for maintenance-related shutdowns.

2. Visualization of Wear Patterns

If the chute is lined, Rocky can clearly see wear patterns, allowing him to make educated judgments regarding replacing or repairing the design.

3. Cost-Effective Solutions for Ignored Equipment

Although chutes are sometimes disregarded, they are critical components that can pose major problems if not properly maintained. Addressing these issues early on saves significant expenses in the long term.

4. High ROI with Ansys Rocky

Rocky provides a significant return on investment, frequently exceeding the initial outlay, by avoiding expensive breakdowns and enhancing chute performance.

Conclusion

For bulk material handling engineers, Ansys Rocky stands out as the premier tool for solving transfer chute-related problems. The ability to simulate complex material behaviours, accurately replicate breakage, and offer detailed insights makes it an indispensable asset. By addressing issues early and effectively, Ansys Rocky not only enhances operational efficiency but also delivers significant cost savings.