Great Wall Pharmaceutical Wastewater Treatment Project, Hebei, China
Pharmaceutical Wastewater Treatment System | UASB + MBR + Advanced Biological Process | EPC Delivery
1 Project Overview
The Great Wall Pharmaceutical Wastewater Treatment Project is an industrial wastewater treatment infrastructure project located in Hebei Province, China.
The project supports pharmaceutical production wastewater treatment requirements for a large-scale pharmaceutical manufacturing facility. The system is designed to handle high-strength organic wastewater generated from pharmaceutical formulation and production processes, ensuring stable environmental compliance and sustainable operation.
2 Project Information
| Item | Details |
|---|---|
| Project Name | Great Wall Pharmaceutical Wastewater Treatment Project |
| Location | Hebei Province, China |
| Project Type | Pharmaceutical Wastewater Treatment |
| Capacity | (project-specific data) |
| Service Scope | EPC / System Integration |
| Core Process | Pretreatment + UASB + MBR |
| Application | Pharmaceutical industrial wastewater treatment |
3 Client Challenges
High concentration of organic pollutants in pharmaceutical wastewater
Complex wastewater composition from production processes
Strong fluctuation in influent water quality
High toxicity and low biodegradability of certain compounds
Strict environmental discharge requirements
Requirement for stable long-term operation and compliance
Core Challenge
Achieve stable and efficient treatment of high-strength pharmaceutical wastewater under complex and fluctuating industrial conditions
4 Engineering Solution
SYNERAQUA implemented a multi-stage biological treatment system combining anaerobic digestion and membrane bioreactor technology.
Process Flow
Pharmaceutical Wastewater → Pretreatment → UASB Anaerobic Reactor → MBR System → Advanced Filtration → Disinfection → Compliance Discharge
The system ensures efficient COD removal, improved biodegradability, and stable effluent quality under variable loading conditions.
5 Scope of Work
Process design and system engineering
Equipment supply and integration
Electrical and instrumentation works
Automation control system
Installation and commissioning
Operator training and technical support
6 Key Technologies & Highlights
UASB high-efficiency anaerobic treatment system
MBR membrane bioreactor technology
Advanced biological treatment process
Stable operation under high-load fluctuation
Automated monitoring and control system
7 Performance Results
Stable effluent quality achieved
High COD removal efficiency (>95%)
System reliability >99%
Fully automated operation
Continuous compliance with discharge standards
8 Project Value
The project significantly improves wastewater treatment performance for pharmaceutical production and ensures stable environmental compliance for long-term industrial operation.
Key contributions include:
Enhanced pharmaceutical wastewater treatment capability
Stable compliance under strict environmental standards
Improved operational reliability
Support for green pharmaceutical manufacturing
Reduced environmental risk and operational cost