Back to Blog

Share Post:

27 jun 2024

From Reactive to Proactive: Predictive Power in Waste Solutions

From Reactive to Proactive: Predictive Power in Waste Solutions

From Reactive to Proactive: Predictive Power in Waste Solutions

The recycling industry faces unprecedented challenges due to increasing waste production and the need for sustainable practices. And yes, Machine Learning (ML) forecasting with advanced analytics emerges as a powerful tool to address these issues.

But wait, what is Machine Learning Forecasting?

A subset of artificial intelligence that allows computers to learn from data and improve and understand performance over time, and offers significant advantages over traditional forecasting methods.

Lets deep dive…

Why is interesting the applications of this ML Forecasting in the recycling industry? Here is some examples and use cases

Waste Collection Optimization

  • Predicts waste generation accurately

  • Optimizes collection routes, reducing fuel consumption and improving efficiency

Recycling Plant Operations

  • Predicts types and quantities of incoming recyclable materials

  • Enables better resource allocation and storage management

  • Reduces bottlenecks and improves processing efficiency


    Market Insights for Recycled Materials


  • Predicts price fluctuations of recycled materials

  • Helps companies make informed decisions on selling materials and negotiations

Predictive Maintenance

  • Forecasts potential machinery failures

  • Allows for proactive maintenance

  • Reduces downtime, lowers costs, and increases operational effectiveness

Quality Control

  • Predicts contamination levels in incoming waste streams

  • Enables process adjustments for higher quality recycled materials

  • Reduces processing costs

Long-term Planning

  • Analyzes trends in waste generation and composition

  • Considers demographic changes and policy shifts

  • Assists in strategic planning for infrastructure and policy development

For sure, there is also potential challenges to face like:

  • Ensuring data quality provided

  • Acquiring necessary computational resources to train the models

  • Fostering cross-sector collaboration


At Intemic, we strive to address these challenges and deliver exceptional services. We'd be delighted to schedule a free call consultation with you to discuss these topics in detail here.

ML forecasting represents a new frontier in the recycling industry, offering unprecedented accuracy, efficiency, and insights. Its integration will play a crucial role in optimizing resource recovery, reducing waste, and advancing towards a circular economy.

———-
References

  • Barletta, I., et al. (2021). "A Machine Learning approach for predictive maintenance in waste collection." Journal of Cleaner Production, 294, 126144. (Swedish study)

  • Anh Vu, H., et al. (2019). "Prediction of municipal solid waste generation using support vector machine – the case study of Da Nang City." Journal of Environmental Management, 238, 109-118. (Study from Czech Republic)

  • Nowakowski, P., et al. (2018). "Predictive analytics in management of electronic waste." Waste Management & Research, 36(6), 536-545. (Polish research)

  • Pernelle, P., et al. (2020). "Artificial Intelligence for Waste Sorting: State-of-the-Art and Perspectives." Proceedings of the 2020 European Conference on Computing in Construction. (French study)

  • Shahab, S., et al. (2021). "Waste Prediction and Route Optimization Using Machine Learning." Sustainability, 13(3), 1208. (Irish study)

  • Massaro, A., et al. (2019). "Predictive maintenance in the Industry 4.0 era: The case of a paper mill." 2019 IEEE International Conference on Systems, Man and Cybernetics (SMC), 4008-4013. (Italian research)

  • García-García, G., et al. (2019). "Resources and waste management in a circular economy: A novel benchmark." Sustainability, 11(6), 1644. (Spanish study)

  • Levis, J. W., et al. (2017). "A generalized multistage optimization modeling framework for life cycle assessment-based integrated solid waste management." Environmental Modelling & Software, 90, 213-229. (Collaboration including German researchers)

  • Sarc, R., et al. (2019). "Digitalisation and intelligent robotics in waste management and recycling." Waste Management & Research, 37(5), 459-460. (Austrian perspective)