Affiliation:
1. School of Control and Computer Engineering, North China Electric Power University, Baoding 071003, China
2. Shenzhen Energy Environment Engineering Co., Ltd., Shenzhen 518048, China
Abstract
In order to accurately predict the key operating parameters of waste incinerators, this paper proposes a prediction method based on big data and a Multi-Verse Optimizer deep learning model, thus providing a powerful reference for controlling the optimization of the incinerator combustion process. The key operating parameters that were predicted, according to the control objectives, were determined to be the steam flow, gas oxygen, and flue temperature. Firstly, a large amount of measurement data were collected, and 27 relevant control system parameters with a high correlation with the predicted variables were obtained via a mechanism analysis. The input variables of the prediction model were further determined using the improved WesselN symbolic transfer entropy algorithm. The delay time between the variables was found using a gray correlation coefficient, the prediction time was determined to be 6 min according to the delay time distribution of the flame feature, and the time delay compensation was applied to each parameter. Finally, the support vector machine was optimized using a Multi-Verse Optimization algorithm to complete the prediction of the key operating parameters. Experiments showed that the root mean square error of the proposed model for the three output variables—the steam flow, gas oxygen, and flue temperature—were 0.3035, 0.2477, and 1.6773, respectively, which provides a high accuracy compared to other models.
Funder
Shenzhen Special Sustainable Development Science and Technology Project
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction
Reference43 articles.
1. A series of reports on the effectiveness of special rectification actions in waste-to-energy industry Online monitoring drives green innovation in waste-to-energy industry;Wang;Environ. Econ.,2022
2. About city life garbage disposal system research of carbon abatement;Long;Proc. Chin. Acad. Sci.,2022
3. China city life garbage disposal ability of space-time structure and influencing factors;Lv;J. Geogr. Sci.,2021
4. PCDD/Fs emissions in a large-scale hazardous waste incinerator under different operation conditions: Effective reduction strategies and an applicable correlation;Jiang;J. Energy Inst.,2023
5. Prediction of UCS and CBR behavior of fiber-reinforced municipal solid waste incinerator bottom ash composites using experimental and machine learning methods;Kumar;Constr. Build. Mater.,2023