Modular Containerized Seawater Desalination Solution
Delivering Reliable and Sustainable Freshwater Through Scale and Efficiency.
Core Design

Solution Highlights


End-to-End System Integration
Integrated design covering the entire desalination process.Reduced interface complexity and system integration risks.
Improved project execution efficiency and operational reliability.

High-Efficiency RO System Design
Optimized recovery rate configuration.High-flux membrane element selection and arrangement.
Precise operational parameter control for maximum performance and membrane longevity.

Advanced Energy Recovery System
Captures and reuses energy from high-pressure concentrate streams.Reduces overall energy consumption by 30–50%.
Improves plant efficiency and lowers operating costs.

Large-Scale Modular Design
Modular construction approach reduces project delivery risks.Enables phased capacity expansion as demand grows.
Improves flexibility for long-term water infrastructure planning.

Intelligent Control & Digital Operations
Real-time monitoring of flow, pressure, TDS, and energy consumption.Membrane fouling prediction through differential pressure trend analysis.
Remote operation, maintenance, and performance optimization.

Multi-Energy Integration
Compatible with grid power, solar PV, and energy storage systems.Enhances energy resilience and operational flexibility.
Reduces long-term operating costs, particularly electricity expenses.
Application Scenarios
Designed for municipal and industrial water supply applications, this solution provides a comprehensive approach to large-scale seawater desalination plant development and operation, covering the entire process from seawater intake, pretreatment, and reverse osmosis desalination to post-treatment, water transmission, and distribution.
Leveraging large-scale plant design and advanced energy recovery technologies, the solution ensures low energy consumption, stable operation, and a reliable long-term freshwater supply, helping communities and industries meet growing water demands sustainably.

Islands

Emergency Water Supply

Industrial Parks




