TEKNOPAR Industrial Automation Case Studies Digital Twin-based Predictive Maintenance with TEKNOPAR’s TIA Platform

	Digital Twin-based Predictive Maintenance with TEKNOPAR’s TIA Platform TEKNOPAR Industrial Automation

Digital Twin-based Predictive Maintenance with TEKNOPAR’s TIA Platform

TEKNOPAR Industrial Automation

Technology Category	Analytics & Modeling - Digital Twin / Simulation Analytics & Modeling - Machine Learning Analytics & Modeling - Predictive Analytics Analytics & Modeling - Process Analytics Platform as a Service (PaaS) - Data Management Platforms Sensors - Chemical Sensors Sensors - Pressure Sensors Sensors - Temperature Sensors Sensors - Voltage Sensors
Applicable Industries	Equipment & Machinery Metals
Applicable Functions	Process Manufacturing
Use Cases	Digital Twin Machine Condition Monitoring Predictive Maintenance
Services	Software Design & Engineering Services
Challenge	Predictive Maintenance is a sophisticated approach in equipment management that employs machine learning to constantly monitor and evaluate the condition of machinery. This methodology aids manufacturers in predicting potential faults, significantly reducing production costs, optimizing device usage, and enhancing productivity. Key activities in predictive maintenance include continuous monitoring of equipment health, data-driven condition assessment, and using advanced algorithms for predicting potential failures. A digital twin—a digital replica of a physical object, contextualized within its environment—plays a crucial role in this process. A leading spiral welded steel pipe manufacturer in Turkey faced significant production challenges. The factory's production process, reliant on a series of interdependent machines, was highly susceptible to disruptions. Any machine failure would halt the entire production line, leading to unpredictable and prolonged downtimes. Additionally, the lack of sufficient failure data necessitated the generation of synthetic data using high-fidelity hybrid models. Read More
About Customer	A Leading Spiral Welded Steel Pipe Manufacturer in Turkey Read More
Solution	TEKNOPAR implemented its TIA Platform in the factory, deploying an array of sensors on the machines to collect comprehensive data. This included 26 temperature sensors, 11 vibration sensors, 10 current sensors, 12 pressure sensors, and 1 oil contamination sensor. A cognitive digital twin was developed to provide real-time monitoring of the production process and machine status. Upon activation, the system detected abnormally high temperatures in a machine. Initially, the operators and maintenance team doubted these readings. However, verification using a thermal camera confirmed the accuracy of the digital twin's data, leading to the immediate shutdown of the machine to prevent further damage. This quick response, facilitated by the digital twin, averted a potential disaster. Read More Log in to view content
Data Collected	Current, Oil Contamination, Pressure, Temperature, Vibration Read More Log in to view content
Contents

Technology Category

Analytics & Modeling - Digital Twin / Simulation

Analytics & Modeling - Machine Learning

Analytics & Modeling - Predictive Analytics

Analytics & Modeling - Process Analytics

Platform as a Service (PaaS) - Data Management Platforms

Sensors - Chemical Sensors

Sensors - Pressure Sensors

Sensors - Temperature Sensors

Sensors - Voltage Sensors

Applicable Industries

Equipment & Machinery

Metals

Applicable Functions

Process Manufacturing

Use Cases

Digital Twin

Machine Condition Monitoring

Predictive Maintenance

Services

Software Design & Engineering Services

Challenge

Predictive Maintenance is a sophisticated approach in equipment management that employs machine learning to constantly monitor and evaluate the condition of machinery. This methodology aids manufacturers in predicting potential faults, significantly reducing production costs, optimizing device usage, and enhancing productivity. Key activities in predictive maintenance include continuous monitoring of equipment health, data-driven condition assessment, and using advanced algorithms for predicting potential failures. A digital twin—a digital replica of a physical object, contextualized within its environment—plays a crucial role in this process.

A leading spiral welded steel pipe manufacturer in Turkey faced significant production challenges. The factory's production process, reliant on a series of interdependent machines, was highly susceptible to disruptions. Any machine failure would halt the entire production line, leading to unpredictable and prolonged downtimes. Additionally, the lack of sufficient failure data necessitated the generation of synthetic data using high-fidelity hybrid models.

About Customer

A Leading Spiral Welded Steel Pipe Manufacturer in Turkey

Solution

TEKNOPAR implemented its TIA Platform in the factory, deploying an array of sensors on the machines to collect comprehensive data. This included 26 temperature sensors, 11 vibration sensors, 10 current sensors, 12 pressure sensors, and 1 oil contamination sensor. A cognitive digital twin was developed to provide real-time monitoring of the production process and machine status.

Upon activation, the system detected abnormally high temperatures in a machine. Initially, the operators and maintenance team doubted these readings. However, verification using a thermal camera confirmed the accuracy of the digital twin's data, leading to the immediate shutdown of the machine to prevent further damage. This quick response, facilitated by the digital twin, averted a potential disaster.

Data Collected

Current, Oil Contamination, Pressure, Temperature, Vibration

Impact #1	[Process Optimization - Real Time Monitoring] Real-time monitoring with latency under 1ms.
Impact #2	[Data Management - Data Accuracy] 99% accuracy in data analytics and AI algorithms.
Impact #3	[Cost Reduction - Maintenance] Reduction in machine downtime by 62%.

Impact #1

[Process Optimization - Real Time Monitoring]

Real-time monitoring with latency under 1ms.

Impact #2

[Data Management - Data Accuracy]

99% accuracy in data analytics and AI algorithms.

Impact #3

[Cost Reduction - Maintenance]

Reduction in machine downtime by 62%.

Benefit #1	Percentage of Type 1 error in anomaly detection (incorrect rejection of a true null hypothesis): 6,75%.
Benefit #2	Percentage of Type 2 error in anomaly detection (failure to reject a false null hypothesis): 2,18%.
Benefit #3	Reduction in energy consumption: 4,84%.

Benefit #1

Percentage of Type 1 error in anomaly detection (incorrect rejection of a true null hypothesis): 6,75%.

Benefit #2

Percentage of Type 2 error in anomaly detection (failure to reject a false null hypothesis): 2,18%.

Benefit #3

Reduction in energy consumption: 4,84%.

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Overview

Digital Twin-based Predictive Maintenance with TEKNOPAR’s TIA Platform

Operational Impact

Quantitative Benefit