Based on the type of boiler burner and the actual characteristics of coal types, combined with the actual operation problems, the five major elements of high-temperature corrosion are systematically analyzed, and special improvement plans and intelligent optimization control plans are formulated: high-temperature corrosion analysis, judgment and modeling; High-temperature corrosion control models and solutions; Intelligent control of high-temperature corrosion and combustion Optimal evaluation of high-temperature corrosion and combustion.
◆Collect on-site data and establish a mechanism model for high-temperature corrosion analysis of boilers; ◆Establish a special campaign to address high-temperature corrosionCFDNumerical simulation model to determine the special plan for combustion optimization and high-temperature corrosion control; ◆Build multi-source data coupling for intelligent control of high-temperature corrosion and combustionAPCModel; Optimal evaluation of high-temperature corrosion and combustion.
◆Thoroughly solve the problem of high-temperature corrosion of water-cooled walls. Completely solve the problem of coking in boilers; ◆Effectively reduce the furnace outletNOxabout20%Support precise ammonia injection for denitrification; ◆Effectively enhance the combustion efficiency of the boiler by no less than0.45%; Fully implement combustion state optimization and intelligent closed-loop control.
Five-In-One-Inspection Equipment Intelligent Maintenance and Decision System 
Precision Inspection and Remote Diagnosis System 
an intelligent predictive maintenance visualization system for your most critical machinery health and condition monitoring 
Visualized Auxiliary Machinery Intelligent Safety Pre-control System