1️⃣ Why Particle Size Distribution Matters
In powder handling systems, particle size distribution (PSD) is one of the most critical factors influencing powder flowability and feeding accuracy.
Even when using the same material, variations in particle size — or the presence of fine powder — can significantly affect how smoothly the powder moves through the feeder and hopper.
For screw feeders and hoppers, differences in particle size distribution often lead to issues such as clogging, uneven discharge, or biased flow, directly impacting production stability and weighing precision.
2️⃣ How Particle Size Distribution Affects Flow Behavior
When particles are large and uniform:
Flowability tends to be excellent, as contact friction between particles is low.
However, if particles are too large, screw engagement becomes inconsistent, leading to small fluctuations in feed rate.
When fine powder dominates:
Fine particles can easily trap air and fluidize, which sometimes prevents them from entering the screw consistently.
Fines also tend to adhere to hopper walls and the screw surface, causing buildup and feeding interruptions.
When particle sizes are mixed (broad distribution):
Fine powder can fill the voids between larger particles, leading to compaction and forming bridges or rat-holes.
As a result, powder discharge becomes unstable, and feed rate variation increases significantly.l methods must be optimized.separation if the equipment or operating conditions are not properly controlled.
3️⃣ Real Impact on Feeding Accuracy
Variations in particle size distribution cause fluctuations in discharge volume, even when screw rotation speed remains constant.
For instance, when handling finer powders, the filling ratio inside the screw flights may change, resulting in up to 10–20% flow rate variation compared to coarse materials.
Therefore, to maintain precise feeding, it is essential to understand the material’s PSD and select the right feeder design, screw geometry, and hopper configuration accordingly.
4️⃣ Practical Solutions for Stable Feeding with Varied PSD
① Optimize the Screw Design
For cohesive or fine powders, a deep-flight or twin-screw design allows trapped air to escape while maintaining stable discharge.
This reduces feed pulsation and improves consistency during long-term operation.
② Use an Agitated Hopper
Installing an agitator inside the hopper helps prevent segregation caused by differences in particle size.
It ensures that large and fine particles are evenly discharged, which is especially important during continuous feeding.
③ Conduct Flow Tests Before Production
When introducing a new powder material, it is highly recommended to perform a powder flow test using a small-scale feeder.
This helps evaluate how particle size distribution influences the discharge rate and determine the most suitable setup in advance.
Seiwa Giken’s Approach to Particle Size Challenges
At Seiwa Giken, we offer feeders and hopper systems that are engineered to adapt to various powder characteristics, including wide or fine particle distributions.
- Mini Screw Feeder –
Designed for precise, stable feeding of fine or lightweight powders.
Ideal for laboratory-scale evaluation and small-batch applications. - Standard Screw Feeder (20L Hopper Type) –
Equipped with an agitated hopper to prevent bridging and segregation.
Maintains stable discharge even when handling materials with broad particle size distributions, making it suitable for continuous production lines.
Every unit can be customized in terms of screw size, pitch, and material to ensure optimal performance for specific powder properties.
👉 Learn more about Seiwa Giken’s Screw Feeders↓↓
