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News and Events
Customized membrane technology, widely applied in wastewater treatment and material separation under complex conditions, leading the industry.
2026-06-02
From June 9 to 11, 2026, Anhui Plum Membrane Technology Co., Ltd. will participate in the 18th Shanghai International Water Exhibition (WATERTECH CHINA / WieTec 2026). The event will be held at the National Exhibition and Convention Center (Hongqiao) in Shanghai, with Plum Membrane’s booth located at Hall 7.1, Stand H715.
2026-05-19
Desulfurization wastewater, commonly referred to as Flue Gas Desulfurization (FGD) wastewater, is the highly corrosive, hypersaline effluent generated during the wet scrubbing process used to strip sulfur dioxide from power plant emissions. Managing this specific stream represents one of the most complex challenges in industrial water purification due to its extreme concentrations of heavy metals, chlorides, and supersaturated gypsum scaling compounds. Implementing an optimized desulfurization wastewater treatment strategy is crucial for facilities aiming to achieve regulatory compliance and advance toward zero liquid discharge (ZLD) goals.
Breaking the Bottleneck: Why Industry Leaders are Upgrading to Our Large Diameter Tubular Membranes
Designed specifically for the harshest industrial effluents, landfill leachate, and thick biomass separations, our advanced filtration technology completely redefines cross-flow hydrodynamics.
21
2026/04
To definitively solve this industry-wide challenge, we have introduced our PEK (Polyetherketone) Special Oil Removal Tubular Membrane System, engineered specifically for harsh oily conditions.
18
2026/04
The core membrane separation equipment for a key domestic 1-million-ton corn bio-manufacturing industrial park project has successfully completed production and quality inspection, and three customized systems have now been loaded onto trucks and dispatched to the project site.
14
2026/04
Maximizing TCO: The Role of Advanced Tubular Membrane Modules
Advanced PEK tubular membranes optimize the total cost of ownership (TCO) in industrial water treatment by replacing fragile conventional systems. Their aerospace-grade resilience (pH 0–14, high temperature) and cross-flow hydrodynamics allow for direct processing of high-solids waste (up to 50 g/L), eliminating the need for bulky pretreatment like clarifiers. By reducing chemical dependency, extending asset lifecycles, and protecting downstream Zero Liquid Discharge (ZLD) units, these modules significantly lower OPEX and ensure regulatory compliance in heavy manufacturing.
17
2026/03
Advanced Tubular Membrane Modules for Harsh Industrial Wastewater
This article highlights how PEK tubular membranes revolutionize extreme industrial wastewater treatment. By replacing fragile PVDF with aerospace-grade PEK (resistant to pH 0–14 and temperatures up to 230°C), these modules use cross-flow filtration to directly process raw effluents with high solid loads (30–50 g/L). This eliminates the need for bulky pretreatment tanks, prevents fouling, and ensures stable operations for Zero Liquid Discharge (ZLD) and high-value product recovery in the biopharma sector.
03
2026/03
Tubular MBR System: A Complete Guide to High-Performance Wastewater Treatment
A tubular MBR system is an advanced wastewater treatment solution that combines biological processing with tubular membrane filtration. Its design allows it to handle high-solid, high-viscosity, and heavily contaminated wastewater with minimal fouling.
Compared to conventional MBR systems, it offers better durability, easier cleaning, and consistent effluent quality, making it ideal for industries such as chemicals, food processing, and textiles. Although the initial cost is higher, its long-term efficiency and low maintenance make it a reliable and cost-effective choice.
27
2026/02
High fouling resistance tubular membranes are designed for filtering difficult liquids with high solids and viscosity. Their large channels and high crossflow operation reduce clogging, ensuring stable performance and easy cleaning.
Widely used in wastewater, food, and chemical industries, they offer longer lifespan, lower maintenance, and reliable efficiency—making them a cost-effective solution despite higher initial investment.
04
2026/02
The 2,200 m³/d leachate full-volume treatment membrane system for the Anhui Plum Membrane Hong Kong Project has been officially shipped, paving the way for a new journey of solid waste management and synergistic environmental protection in the Guangdong-Hong Kong-Macao Greater Bay Area.
03
2025/12
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