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Related Experiment Video

Updated: Jan 13, 2026

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Enhancing Efficiency in Coal-Fired Boilers Using a New Predictive Control Method for Key Parameters.

Qinwu Li1,2, Libin Yu1, Tingyu Liu2

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Summary
This summary is machine-generated.

A new predictive control method enhances coal-fired boiler efficiency during variable load conditions. This approach improves combustion stability and reduces CO2 emissions by precisely managing key operational parameters.

Keywords:
GRUTransformercoal-fired boileroperational parameter optimizationpredictive control method

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Area of Science:

  • Boiler engineering
  • Combustion control
  • Renewable energy integration

Background:

  • Renewable energy integration causes frequent load changes in coal-fired boilers.
  • Load fluctuations lead to deviations in key operational parameters, reducing efficiency and stability.
  • Existing control methods struggle with complex variable-load conditions.

Purpose of the Study:

  • To develop a novel predictive control method for precise parameter control in coal-fired boilers under variable loads.
  • To enhance combustion stability and operational efficiency in the context of carbon neutrality goals.
  • To reduce energy consumption and CO2 emissions.

Main Methods:

  • A coupled Transformer-gated recurrent unit (GRU) predictive model was developed for high-accuracy prediction of oxygen content, bed pressure, and main steam temperature.
  • A Whale Optimization Algorithm (WOA)-based real-time optimization strategy was employed for coordinated control adjustments.
  • The method was validated on a 300 t/h boiler over a 24-hour load cycle.

Main Results:

  • The coupled Transformer-GRU model achieved high prediction accuracy (e.g., MAE of 0.095% for oxygen content).
  • The predictive control method significantly reduced fluctuations in oxygen content (62.07%), bed pressure (50.95%), and main steam temperature (40.43%).
  • Field validation demonstrated substantial improvements over traditional control methods.

Conclusions:

  • The novel predictive control method effectively enhances boiler thermal efficiency and steam quality under variable load conditions.
  • The method offers an estimated annual efficiency gain of ~1.77% and significant CO2 emission reductions.
  • This approach supports the stable integration of renewable energy sources while maintaining boiler performance.