Qsee Case Studies Process Predictive Analysis in Pulp and Paper Mill

	Process Predictive Analysis in Pulp and Paper Mill Qsee

Process Predictive Analysis in Pulp and Paper Mill

Qsee

Technology Category	Analytics & Modeling - Predictive Analytics Analytics & Modeling - Process Analytics
Applicable Industries	Paper & Pulp
Applicable Functions	Process Manufacturing
Use Cases	Process Control & Optimization
Challenge	Common paper breaks consequently lead up to 60 minutes of downtime, delaying a potential $10K per hour of production value process. Thus, defective products cause financial and damage company's reputation. Improving quality and reducing defect rates can generate millions of dollars of revenue per year for your company. Read More
About Customer	Manufacturing plants Read More
Customer Name	Undisclosed Read More
Solution	Qsee is able to predict and optimize quality test during the production letting the operator save time and get the right insights for all the produced products. Read More Log in to view content
Data Collected	Accuracy, Fault Detection, Operation Performance, Production Efficiency, Response Time Read More Log in to view content
Contents

Technology Category

Analytics & Modeling - Predictive Analytics

Analytics & Modeling - Process Analytics

Applicable Industries

Paper & Pulp

Applicable Functions

Process Manufacturing

Use Cases

Process Control & Optimization

Challenge

Common paper breaks consequently lead up to 60 minutes of downtime, delaying a potential $10K per hour of production value process. Thus, defective products cause financial and damage company's reputation. Improving quality and reducing defect rates can generate millions of dollars of revenue per year for your company.

About Customer

Manufacturing plants

Customer Name

Undisclosed

Solution

Qsee is able to predict and optimize quality test during the production letting the operator save time and get the right insights for all the produced products.

Data Collected

Accuracy, Fault Detection, Operation Performance, Production Efficiency, Response Time

Impact #1	The predictive quality AI technology analyzes and generates predictions during the production and alerts the operator the quality of the paper based on the parameters collected at that moment. It is able to create an automated independent tool to predict the CMT and other tests results during the production with 99% accuracy. Resulting also in 4 times more tests done than the quality control lab. False positives and negatives from the lab's results can be detected with 97% accuracy.
Impact #2	Qsee predicts and explains (at least 40 minutes on average) paper strength and prevents paper web breaks to help manufacturers improve productivity and product quality before problems occur. Within a one month window, data was analyzed and predicted over 80% of the events. The predictive quality AI technology alerted (on average) 2 times and 40 minutes in advance per event.

Impact #1

The predictive quality AI technology analyzes and generates predictions during the production and alerts the operator the quality of the paper based on the parameters collected at that moment.

It is able to create an automated independent tool to predict the CMT and other tests results during the production with 99% accuracy. Resulting also in 4 times more tests done than the quality control lab. False positives and negatives from the lab's results can be detected with 97% accuracy.

Impact #2

Qsee predicts and explains (at least 40 minutes on average) paper strength and prevents paper web breaks to help manufacturers improve productivity and product quality before problems occur.

Within a one month window, data was analyzed and predicted over 80% of the events. The predictive quality AI technology alerted (on average) 2 times and 40 minutes in advance per event.

Benefit #1	Reduction in downtime by predicting and preventing tears. Enabling the operators to proactively take action and reduce 50% of the web breaks. Automate ongoing Quality tests and reduce depreciation online in production. Optimize raw materials to reduce waste and returns due to bad quality and provide optimum and peak quality. It instills greater confidence with the increase in productivity and peak quality, resulting in significant yield improvement.
Benefit #2	Continuous failure prediction and root cause analysis, secured and backed up, improves process stability

Benefit #1

Reduction in downtime by predicting and preventing tears. Enabling the operators to proactively take action and reduce 50% of the web breaks. Automate ongoing Quality tests and reduce depreciation online in production. Optimize raw materials to reduce waste and returns due to bad quality and provide optimum and peak quality. It instills greater confidence with the increase in productivity and peak quality, resulting in significant yield improvement.

Benefit #2

Continuous failure prediction and root cause analysis, secured and backed up, improves process stability

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Overview

Process Predictive Analysis in Pulp and Paper Mill

Operational Impact

Quantitative Benefit