1. Prof Kang Li, Dr Jing Deng, Prof Eileen Harkin-Jones, Prof Mark Price, Dr Adrian Kelly
Dr Elaine Brown, Prof Phil Coates
Queen’s University Belfast , The University of Bradford
Energy and Condition Monitoring for Polymer Industry
– embedded with intelligent system optimization and control
k.li@qub.ac.uk
Save Energy from
• Unnecessary over heating
• Conservative setting
• Long machine start-up time
• Unacceptable quality
• Machine faults
• Changing materials
Killion KTS-100 laboratory single-screw extruder
PID
Controller
Heating band
Cooling Fan
Extruder
Barrel Zone
Temperature
Set
Temperature
DURAKOOL Mercury
displacement contactor
Time-proportional control
Thermal energy consumption
Extruder Killion KTS-100
Material SABIC LDPE 2100TN00W
Cooling temperature setting: 25
Temperature setting: 170-180-190
(Feed, convey, metering)
Screw speed: 40 rpm
Energy and viscosity monitoring
Motor
Apparent
power
consumption
Power factor
Active power
Screw speed
Voltage
current
current
Screw speed
(amerature voltage model prediction)
V_a = 12.4222 * I + 0.0038 * N RBF network model trained by two-stage selection and
differential evolution
Proof of Concept
Integrating energy efficiency monitoring,
control and optimization for plastics industry
• Develop a new generation of low cost energy monitoring system which can be easily
integrated with existing or new processes and validate it on a wide range of extruders.
• Build intelligent energy efficient control and optimization system and merge functions
from 1.
• Patent the concept and develop a prototype system for dissemination and exhibition.
k.li@qub.ac.uk
Temperature controller