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Using Dynamic Modelling to Troubleshoot Pumping System Trip

Using Dynamic Modelling to Troubleshoot Pumping System Trip

troubleshooting
dynamic modelling
troubleshooting
pump
system trip
Jean-Noel Bajeet
8-minute read

Using Dynamic Modelling to Troubleshoot Pumping System Trip

Dynamic modelling is a powerful tool for troubleshooting complex operational issues in pumping systems. This case study illustrates how it can be used to identify and resolve recurring start-up trips, leading to improved system reliability and reduced downtime.

Background

Recurring trips on a 6.9 MW motor-driven multistage barrel type centrifugal pump were causing severe outages on a North Sea (UK) crude oil processing platform. Plant shutdowns sometimes lasted a full day or more, resulting in significant production losses. The pump tripped on high suction pressure during start-up, despite a seemingly large margin between the trip set point (30 barg) and normal operating suction pressure (20 barg).

Crude Pumping System
Figure 1: Crude Pumping System

Dynamic Modelling Approach

Using HYSYS v7.2 for dynamic modelling, the crude pumping system start-up was simulated to scrutinize its transient behavior and monitor changes in key operational parameters.

System Modelling for Low Cv Min Flow FCV
Figure 2: System Modelling for Low Cv Min Flow FCV (Cv = 55)
System Modelling for Higher Cv Min Flow FCV
Figure 3: System Modelling for Higher Cv Min Flow FCV (Cv = 100)

Key Findings

  1. The analysis confirmed a large transient rise in suction pressure during start-up, causing the pump and system to trip.
  2. The root cause was identified as the recycle valve being too small (Cv = 55) to match the pump work during ramp-up.
  3. Iterative simulations with larger Cv valves showed that a Cv of 100 was sufficient to avoid trips and provide a minimum 10% margin from the trip setpoint.
Effect of Recycle Valve CV on Pump Start-Up
Figure 4: Effect of Recycle Valve CV on Pump Start-Up

System Behavior Analysis

The behavior of a pumping system during transient phases is complex, influenced by:

  • Hardware interactions
  • Control system design and settings
  • Defined operating procedures
Valve Pressure Drop vs Flow
Figure 5: Valve Pressure drop vs flow

Why This Matters

Understanding and resolving transient operational issues in pumping systems is crucial for:

  • Minimizing production losses due to unplanned shutdowns
  • Improving overall system reliability and efficiency
  • Optimizing equipment performance and lifespan
  • Reducing maintenance costs and downtime

Did You Know?

  • Transient analysis can reveal issues that steady-state analysis might miss, especially in complex systems.
  • Proper sizing of recycle valves is critical for system stability during start-up and other transient operations.
  • Dynamic modelling can save significant time and resources compared to trial-and-error approaches in the field.

Further Reading

For more information on dynamic modelling and its applications in process engineering:

  1. AspenTech - Dynamic Modeling
  2. AIChE - Process Simulation and Modeling

Conclusions

The problem on the crude oil pumping system was solved by installing a larger Cv recycle valve, restoring system availability. This case demonstrates how dynamic modelling can help troubleshoot pumping systems and provides deeper insight into the role of each key component.

Authors

Sabbir Mahmood – Lead Process Consultant Jean-Noel Bajeet – Lead Mechanical Consultant

Contact

For more information and support, please contact:

Dr Jean-Noel Bajeet FIMechE CEng
Lead Consultant
Jean-noel.bajeet@fluensys.co.uk

While every effort has been made to present a comprehensive overview of best practices for modelling and troubleshooting process systems, Fluensys does not claim that this technique applies to every problem and reserves the right to adjust their technical opinion to reflect latest practices, technologies, and system characteristics.

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