---
title: "Static and Dust in Conveying Systems: Defects, Risks, Safety"
id: "11376"
type: "post"
slug: "static-and-dust-in-conveying-systems-defects-risks-safety"
published_at: "2026-06-02T13:33:35+00:00"
modified_at: "2026-05-14T17:37:32+00:00"
url: "https://www.plasticsengineering.org/2026/06/static-and-dust-in-conveying-systems-defects-risks-safety-011376/"
markdown_url: "https://www.plasticsengineering.org/2026/06/static-and-dust-in-conveying-systems-defects-risks-safety-011376.md"
excerpt: "Static and dust in pneumatic conveying can cause fines, false alarms, filter loading, defects, and safety risks. Learn the causes clearly."
taxonomy_category:
  - "Auxiliaries"
  - "Business"
  - "Equipment"
  - "Industry"
  - "Materials"
  - "People"
  - "Sustainability"
  - "Trending"
taxonomy_post_tag:
  - "Bulk Solids"
  - "Dust Control"
  - "Material handling"
  - "Pellet Handling"
  - "Plant Safety"
  - "plastics processing"
  - "Pneumatic conveying"
  - "Process Engineering"
  - "Static Control"
  - "Troubleshooting"
---

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 » Static and Dust in Conveying Systems: Defects, Risks, Safety

# Static and Dust in Conveying Systems: Defects, Risks, Safety

 Pneumatic conveying systems move plastic pellets and other bulk materials through production facilities, supporting material transfer, storage, and feed to downstream processing equipment. Courtesy of Trimech.### Static and dust in pneumatic conveying can cause fines, false alarms, filter loading, defects, and safety risks. Learn the causes clearly.

Pneumatic conveying systems do more than transfer pellets from storage to process. They also govern triboelectric charging, pellet attrition, fines transport, filter loading, sensor reliability, and dust-related safety risk. Conveying velocity, line geometry, bend impacts, air dryness, and grounding continuity all affect charge accumulation and particulate generation.

**You can also read:** [Resin Drying: The Energy Elephant Hiding in Plain Sight.](https://www.plasticsengineering.org/2026/03/resin-drying-the-energy-elephant-hiding-in-plain-sight-011045/)

Many plastic plants treat those effects as isolated maintenance problems. In practice, they often indicate deeper issues in conveying design and operating conditions. When engineers treat static and dust as system-level variables, they can reduce defects, false alarms, downtime, and operational risk.

## **Electrostatic Charge Development During Pellet Conveying**

Static charge develops as pellets, regrind, and fines interact with pipe walls, elbows, diverters, and each other during transport. In plastics conveying, that charge often persists because polymers exhibit limited electrical conductivity. Low relative humidity further reduces charge dissipation. High conveying velocity can intensify charging by increasing collision frequency, wall impact, and frictional contact along the line. Those same conditions can also increase pellet attrition and fines generation.

## **Mechanical Drivers of Pellet Attrition and Fines Generation**

Many conveying problems stem from excessive mechanical loading within the transport line. Tight-radius elbows, abrupt cross-section changes, long dilute-phase runs, and excessive pickup velocity increase particle-wall impacts, sliding friction, and pellet-to-pellet collisions. These conditions promote attrition, generate fines, and increase dust loading. [Industry guidance](https://publications.aiche.org/system/files/cep/2006/5/Designing-Pneumatic-Conveying-Systems/files/20060523.pdf)
 on pneumatic conveying design has long noted that excessive conveying velocity can increase particle attrition, fines generation, and dust-related operating problems, making line design a critical variable in overall system performance. That increase in fines also changes solid-flow behavior.

Fines do not follow the same trajectory or suspension behavior as intact pellets. They segregate at bends, accumulate in low-velocity regions, and modify local bulk density at the receiver. They can also change air-solids flow stability and residence-time distribution along the line. In downstream steps such as drying and molding, that variability can disturb feed consistency, alter regrind distribution, and increase defect formation, including splay, black specks, gels, and surface irregularities.

## **Effects of Dust and Electrostatic Charge on Sensor Performance**

Static and dust can significantly impair measurement reliability in pneumatic conveying systems. Dust deposition on optical sensors, capacitive probes, and level switches can modify signal response, reduce sensitivity, and narrow the stable operating range. Electrostatic attraction can also cause pellets and fines to adhere to receiver walls and sensor surfaces long enough to generate false high-level, no-flow, or blocked-line alarms.

In many cases, the source of the problem lies in the conveying system rather than in the instrument. A conveying loop that promotes fines generation and retains electrostatic charge will continue to produce unstable sensor output even after instrument replacement. Recurrent instrumentation faults often indicate poor air-solids flow conditions, persistent particulate loading, or inadequate charge dissipation, not an electronics malfunction.

## **Filter Loading, Differential Pressure, and Receiver Stability**

Receiver filters provide another indicator of conveying performance. When filters blind too quickly, plants often respond by increasing pulse-cleaning frequency or replacing cartridges more often. That action addresses the symptom, not the root cause. Also, excess fines generation increases the particulate load at the receiver. Additionally, electrostatic charge can intensify the problem because charged dust adheres more strongly to the filter media and releases less consistently during cleaning cycles. As differential pressure rises, airflow stability declines, pickup efficiency drops, and conveying performance deteriorates. The result often includes more alarms, more maintenance intervention, and more production interruptions.

## **Combustible Dust Hazard and Electrostatic Discharge Risk**

Static and dust also introduce safety concerns beyond nuisance shocks. Fine polymer dust can present a combustible dust hazard when dispersion, confinement, and an ignition source coincide within enclosed equipment. A shock at a receiver or gaylord does not by itself establish explosion risk, but it does confirm electrostatic charge accumulation and discharge within the conveying system.

When a conveying line generates combustible fines and shows poor charge dissipation, the hazard becomes more severe. Under those conditions, dust accumulation, airborne dust concentration, and uncontrolled electrostatic discharge require engineering evaluation. A proper assessment should consider dust generation rate, enclosure geometry, grounding continuity, and the potential for ignition within receivers, filters, and other confined sections of the system.

## **Design Strategies for Charge Dissipation and Fines Reduction**

Installed Gericke GB elbow for pneumatic conveying. The bend uses a special vortex chamber to change flow direction through product deflection rather than severe impact on the bend wall, which extends bend life and supports gentler handling of pellets and other bulk solids. Courtesy of [Gericke.](https://www.gerickegroup.com/us/solutions/pneumatic-conveying/elbow-gb)

The most effective corrections usually start with conveying mechanics. Engineers can reduce pellet damage by eliminating unnecessary elbows, selecting gentler bend geometries, limiting abrupt transitions, and reviewing pickup velocity instead of simply increasing air flow. In many systems, excess velocity increases both breakage and electrostatic charging. Charge control also requires a continuous dissipation path. Bonding and grounding should cover the full conductive system, including receivers, filter housings, flex connections, clamps, and portable bins. A single discontinuity can disrupt system behavior. Humidity control can support charge reduction in dry environments, but it cannot compensate for a poor conveying layout. Plants should also monitor fines generation by material and route, along with filter differential pressure, alarm frequency, and sensor cleaning intervals. Those trends can identify the segments of the conveying system that need redesign.

## **Implications for Product Quality and Process Safety**

Static and dust should not remain classified as routine conveying nuisances. They signal excessive frictional contact, repeated impact loading, unstable solids flow, and avoidable process losses. A better conveying design can reduce fines generation, improve charge dissipation, stabilize sensor performance, and limit filter loading. That combination can improve part quality, increase equipment uptime, and reduce operational and safety risk.

By **[Maria Vargas](https://www.plasticsengineering.org/author/mariavargas/)** | June 2, 2026

##### [Maria Vargas](https://www.plasticsengineering.org/author/mariavargas/)

[+ postsBio ⮌](#)

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