ZhiranTiancheng Cosmetics Wastewater Treatment Project, Beijing
1. Project Overview
The Zhiran Tiancheng (Beijing) Biotechnology Pinggu Plant Wastewater Treatment Project is an environmental compliance infrastructure project for a cosmetics manufacturing facility located in Beijing.
The plant specializes in plant-based cosmetics, skincare products, and customized personal care formulations. The production process generates complex wastewater containing surfactants, oils, organic polymers, fragrances, and preservatives.
The project implements a dedicated wastewater treatment system to ensure full compliance with Beijing local discharge standards and environmental regulations, while supporting stable and sustainable production operations.
2. Project Information
| Item | Details |
|---|---|
| Project Name | Zhiran Tiancheng Cosmetics Wastewater Treatment Project |
| Location | Pinggu District, Beijing, China |
| Project Type | Cosmetics Manufacturing Wastewater Treatment |
| Treatment Capacity | 120 m³/day |
| Industry | Cosmetics Manufacturing |
| EPC Scope | Full EPC Delivery |
| Core Process | DAF + Anaerobic + Biological Treatment |
| Discharge Standard | GB 8978-1996 Class III Standard |
| Application | Industrial Wastewater Compliance Treatment |
3. Client Challenges
The client faced multiple wastewater treatment challenges typical of cosmetics manufacturing:
Complex wastewater composition with surfactants and emulsified oils
High variability in water quality and production cycles
Limited available land for treatment system installation
Strict environmental compliance requirements in Beijing
High operational cost pressure
Limited in-house wastewater treatment expertise
Core Challenge:
Design a compact, stable, and cost-efficient wastewater treatment system capable of handling highly variable cosmetic production effluent.
4. Engineering Solution
SYNERAQUA implemented a compact integrated treatment system combining physicochemical and biological processes.
Process Flow
Cosmetics Wastewater → Dissolved Air Flotation (DAF) → Anaerobic Hydrolysis → Biological Oxidation → Secondary Clarification → Disinfection → Effluent Discharge
Engineering Concept
DAF system for efficient oil and surfactant removal
Anaerobic hydrolysis to improve biodegradability
Biological oxidation for organic pollutant degradation
Compact integrated equipment layout for space optimization
Fully automated dosing and control system
Modular design for future capacity expansion
5. Scope of Work
SYNERAQUA provided full EPC delivery, including:
Process design and engineering optimization
DAF system supply and installation
Anaerobic and biological treatment system construction
Integrated equipment layout and piping system
Electrical and automation system implementation
Commissioning and performance testing
Operator training and technical support
6. Key Technologies & Engineering Highlights
Dissolved Air Flotation (DAF) System enables efficient removal of emulsified oils and surfactants from cosmetics wastewater.
Anaerobic Hydrolysis System improves biodegradability of complex organic compounds.
Biological Oxidation Process ensures stable COD and BOD removal performance.
Compact Integrated Design reduces footprint by more than 50 percent.
Fully Automated Chemical Dosing System reduces operational cost and improves stability.
Modular Expansion Design allows future capacity increase without major reconstruction.
7. Performance Results
Treatment Capacity: 120 m³/day
Occupied Area: Approximately 80 m²
Construction Period: 90 days
Commissioning Period: 30 days
Effluent Compliance Rate: 100 percent design guarantee
Automation Level: Fully automated operation
8. Project Value
The project provides a reliable and cost-effective wastewater treatment solution for cosmetics manufacturing, ensuring environmental compliance and stable production.
Key contributions include:
Full compliance with strict environmental regulations
Significant reduction in operational and maintenance burden
Compact system suitable for limited industrial land
Improved corporate environmental image
Stable long-term wastewater treatment performance
Support for sustainable manufacturing development