REACTOR FEED SYSTEM
A Reactor Feed System is an automated system designed to precisely deliver multiple raw materials into a reactor according to formulated ratios. Its core functions include material metering, conveying
A Reactor Feed System is an automated system designed to precisely deliver multiple raw materials into a reactor according to formulated ratios. Its core functions include material metering, conveying
Reactor Feed System Technology
English:
A Reactor Feed System is an automated system designed to precisely deliver multiple raw materials into a reactor according to formulated ratios. Its core functions include material metering, conveying, sequence control, and safety interlocks to ensure repeatability and safety in chemical processes.
2. (System Structure)
Layer | Components & Functions |
Raw Material Handling | Storage tanks/silos + Pumps/pneumatic systems (pre-processing solids/liquids) |
Metering Control | Load cells/flow meters + Control valves (precision dosing, error ≤0.5%) |
Conveyance Execution | Screw feeders (solids), metering pumps (liquids), piping & valve manifolds (directed to reactor) |
Central Control | DCS/PLC (recipe management, sequence logic, data logging) + HMI (operator interface) |
Safety Protection | Pressure/temperature sensors, emergency shutdown valves, SIL-rated interlocks (explosion/leak prevention) |
High-Precision Dosing: Dynamic compensation (temperature/viscosity) ensuring accuracy.
Flexible Recipe Management: Multi-recipe switching for customized batch production.
Cross-Contamination Prevention: Integrated CIP/SIP (Clean-in-Place/Sterilize-in-Place).
Inherent Safety: ATEX certification, inert gas blanketing.
Real-Time Data Traceability: Automated batch reporting compliant with FDA/EMA.
English:
Fine Chemicals: Pharmaceutical intermediates, dye synthesis
Polymer Production: Emulsion polymerization, polycondensation
Food/Cosmetics: Emulsion systems (e.g., creams, flavorings)
New Energy Materials: Lithium battery electrode slurry preparation
Feature | Reactor Feed System | Traditional Batch Control | Continuous Process Control |
Control Target | Multi-ingredient timed dosing | Single-material step operation | Steady-state flow maintenance |
Precision | ≤0.5% | 1~2% | 0.5~1% |
Complexity | High (multi-variable coupling) | Medium | Low |
Typical Architecture | DCS + precision instruments | PLC + weighing modules | PID flow control loops |
AI-Optimized Recipes: ML-driven dynamic adjustment (e.g., catalyst ratios) to enhance reaction efficiency.
Digital Twin Integration: Virtual simulation of rheological behavior to predict clogging/phase separation.
Modular Design: Plug-and-play metering units reducing line changeover time.
Sustainability: Closed-loop solvent recovery systems minimizing waste.