Baiyangdian Ecological Dredging Phase III Super Magnetic Station Project
River & Lake Restoration | 80,000 m³/day | EPC Delivery
1. Project Overview
The Baiyangdian Ecological Dredging Phase III Super Magnetic Station Project is a key component of the comprehensive ecological restoration program for Baiyangdian Lake in Xiong’an New Area.
The project is part of a national-level watershed environmental protection initiative aimed at improving water quality, restoring aquatic ecosystems, and enhancing regional ecological resilience.
The system adopts advanced super magnetic separation technology to enable high-efficiency treatment of large-scale polluted water bodies, providing a rapid and scalable solution for ecological remediation in complex lake environments.
2. Project Information
| Item | Details |
|---|---|
| Project Name | Baiyangdian Ecological Dredging Phase III Super Magnetic Station Project |
| Location | Xiong’an New Area, Hebei, China |
| Project Type | River & Lake Ecological Restoration |
| Treatment Capacity | 80,000 m³/day |
| EPC Scope | Full EPC General Contracting |
| System Type | Super Magnetic Water Purification System |
| Equipment Scale | 5 integrated magnetic purification units |
| Application | Watershed ecological restoration |
3. Client Challenges
The Baiyangdian region is a key wetland ecosystem in northern China, facing complex ecological and environmental challenges:
Large-scale polluted water body requiring rapid treatment
Complex and mixed pollution sources across the watershed
Short ecological restoration timeline requirements
Dispersed treatment locations
High sludge and suspended solids loading
Strict requirements for water quality improvement
Requirement to minimize ecological disturbance during construction
Core Challenge:
Deliver a high-capacity, rapid-response ecological treatment system suitable for large-scale watershed restoration.
4. Engineering Solution
SYNERAQUA implemented a modular super magnetic purification system designed for large-scale ecological water treatment.
Process Flow
Polluted Water → Coagulation Reaction System → Magnetic Seed Dosing → Super Magnetic Separation System → Clear Water Tank → Ecological Replenishment
Engineering Concept
High-speed magnetic separation for rapid pollutant removal
Coagulation-enhanced solid-liquid separation
Modular skid-mounted system for rapid deployment
Scalable configuration for large watershed applications
Integrated automation and centralized control platform
5. Scope of Work
SYNERAQUA was responsible for full EPC delivery, including:
Process design and engineering optimization
Super magnetic purification system supply
Modular skid-mounted equipment fabrication
Automation and control system integration
Installation and commissioning
System performance testing and optimization
Operational training and technical support
6. Key Technologies & Engineering Highlights
Super Magnetic Separation Technology enables rapid removal of suspended solids, phosphorus, and algae with high treatment efficiency.
High-Speed Water Purification System designed for large-scale, fast-response ecological remediation.
Modular Skid-Mounted Engineering Design ensures rapid deployment and flexible configuration across distributed sites.
Large-Scale Watershed Treatment Capability supports high-capacity ecological restoration requirements.
Intelligent Operation Platform provides centralized monitoring and operational optimization.
7. Performance Results
Treatment Capacity: 80,000 m³/day
System Configuration: 5 magnetic purification units
Application: Large-scale watershed ecological restoration
Operation Mode: Automated centralized control
System Stability: >99%
8. Project Value
The project provides a high-efficiency solution for large-scale ecological water restoration in sensitive wetland environments.
Key contributions include:
Rapid improvement of water quality in large watershed systems
Effective removal of suspended solids, phosphorus, and algae
Reduced ecological disturbance during construction and operation
Modular scalability for large-area deployment
Strong support for national ecological restoration strategies
Enhanced long-term resilience of wetland ecosystems