Abstract
Abstract
The dust control technology of thermal power units plays an important role in reducing the emission of air pollutants and improving the ecological environment. Electrostatic precipitator is not only an important equipment to reduce dust emission from coal-fired power plants, but also a high energy consuming equipment. Establishing the model of electrostatic precipitator is of great significance for energy saving of electrostatic precipitator and emission reduction of power plant. In this paper, a deep neural network based concentration prediction model of dry electrostatic precipitator of 600MW coal-fired unit is established and trained through running data. In the process of model training, an improved PID-based optimizer is used. The modified optimizer is proved to have the effect of accelerating convergence and improving accuracy in experiments. The modeling results demonstrate that the trained neural network model can effectively predict the outlet concentration of dry electrostatic precipitator under wide unit load.
Subject
General Physics and Astronomy
Reference9 articles.
1. Dimensional analysis for assessing the performance of electrostatic precipitators;Gutiérrez Ortiz;Fuel Processing Technology,2010
2. Numerical modeling of ESP for design optimization;B Yu A;Procedia Engineering,2015
3. Concept for the modeling and numerical calculation of electrostatic precipitators using the example of small firing systems;Rubinetti;GEFAHRSTOFFE REINHALTUNG DER LUFT,2016
4. The optimizing control of the operation voltage for electrostatic precipitator based on intellective method;D,2006
5. Energy-saving optimal control for a factual electrostatic precipitator with multiple electric-field stages based on GA;Z;Journal of Process Control,2013