External Pressure Reinforced Hollow Fiber Membrane PVDF Material Shuiyi Slufri® SMU-A Series
Shuiyi Slufri® Series MBR Membrane Products utilize low-pressure high-flux PVDF hollow fiber composite membranes with evenly spaced fiber technology. The membrane cassette is equipped with apulse aeration device, featuring high operational flux, stable water quality, strong anti-fouling capability, long service life, and low energy consumption. Additionally, compared to traditional MBR membranes, the air-to-water ratio can be as low as 5:1, reducing energy consumption by more than 40%, making it widely applicable in municipal and industrial wastewater treatment sectors.
Product Introduction
- Small pore size, large flux
The membrane fibers have an average pore size of 0.05μm, with uniform pore distribution, high porosity, higher anti-fouling properties, and longer service life. By adjusting the membrane material formula and upgrading the process, the operational flux has increased by 25%. - Long service life
The membrane fibers have a tensile strength >150N and peel strength >3N, can withstand higher intensity backwashing without breaking or peeling, and have a long service life. - Anti-fouling, not trap mud
The series uses automated spacing of hot melt adhesive, ensuring evenly spaced and neatly arranged membrane fibers, effectively enhancing the anti-fouling properties of the membrane elements, preventing mud trapping, reducing cleaning frequency, and increasing water production efficiency. - Low operational energy consumption
Shuiyi ESP high-efficiency energy-saving membrane assemblies use large bubble pulse aeration technology, reducing aeration by 40% compared to traditional continuous aeration, lowering the air-to-water ratio to below 5:1, and significantly reducing energy consumption. - Operable without backwashing
With the new product upgrade, it can operate without backwashing, effectively improving water production efficiency and quantity, achieving energy savings and consumption reduction.
Data Sheet
| Membrane assembly model | Parameter | |||||
| SSP20-SMU20MP | SDP72-SMU20MP | SSP25-SMU35AP | SDP72-SMU35AP | SSP60-SMU30EP | ||
| Membrane cassette parameters | Total membrane area | 400m² | 1440m² | 875m² | 2520m² | 1800m² |
| Number of membrane elements | 20 assemblies | 72 assemblies | 25 assemblies | 72 assemblies | 60 assemblies | |
| Arrangement style | Single row | Double row | Single row | Double row | Single row | |
| Membrane cassette length | 1961mm | 3241mm | 2301mm | 3145mm | 3360mm | |
| Membrane cassette width | 729mm | 1280mm | 961mm | 1725mm | 1610mm | |
| Membrane cassette height | 2147mm | 2253mm | 2845mm | 2890mm | 2700mm | |
| Aeration method | Pulse aeration | |||||
| Membrane element parameters | Membrane element model | SMU-20MP | SMU-35AP | SMU-30EP | ||
| Effective membrane area | 20m² | 35m² | 30 m² | |||
| Membrane fiber arrangement | Evenly spaced and neatly arranged fibers | |||||
| Membrane material | Support layer: PET; Separation layer: PVDF | |||||
| Membrane form | External pressure hollow fiber membrane | |||||
| Nominal pore size⁽¹⁾ | 0.05μm | |||||
| Membrane fiber outer diameter | 2.6/2.0mm | |||||
| External dimensions (L*W*H) | 572×50×1560mm | 824×46×2200mm | 1250×30×2000mm | |||
| Interface size | φ27 | DN32 | φ24 | |||
| Membrane operational parameters | Recommended transmembrane pressure differential | 0~35kPa | ||||
| Maximum backwash pressure | 70 kPa | |||||
| Operational flux⁽²⁾ | 15~30L/m²·h,25℃ | |||||
| Backwash flux⁽²⁾ | 20~60L/m²·h | |||||
| Working temperature | 5~40℃ | |||||
| Operational pH range | 2~10 | |||||
| Aeration intensity⁽³⁾ | Pulse aeration: 50~75 (Nm³/m²•h) | |||||
| Perforated aeration: 80~120 (Nm3/m²•h) | ||||||
| Chemical cleaning pH range⁽⁴⁾ | 1~12 | |||||
| Produced water quality ⁽⁵⁾ | Turbidity | ≤0.8NTU | ||||
| SS | ≤5.0mg/L | |||||
Note:
(1) Pore size is tested according to GB/T38949-2020 Determination of Pore Size for Porous Membranes Standard Particle Method;
(2) Operational and backwash fluxes depend on the overall system operation and maintenance;
(3) Aeration intensity is calculated based on the upward-facing projected area of the membrane modules;
(4) During cleaning under standard conditions at 30°C;
(5) Produced water quality metrics may slightly vary depending on the inlet water quality.
The data presented herein have been tested and are reliable, but variability may occur due to different testing methods and operating conditions. Therefore, users should combine practical application processes and thoroughly understand the products of Ningbo Shuiyi Membrane Technology Development Co., Ltd.
Why choose shuiyi MBR membranes for water treatment?
Shuiyi Slufri® series MBR membrane products have a series of advantages, such as simple wastewater treatment process, small footprint, excellent shock load resistance, and stable water quality and quantity.
It not only realizes solid-liquid separation, but also avoids leaking of suspended solids, which is a common problem in the traditional sedimentation and separation process.
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