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Dupont SFP-2860 PVDF Ultrafiltration Membrane Module with 0.03μm Pore Size for RO Pretreatment
Datos del producto:
| Lugar de origen: | Porcelana |
| Nombre de la marca: | Dupont |
| Certificación: | CE |
| Número de modelo: | SFP-2860 |
| Documento: | UF-IntegraTec-P-Series-PVDF...en.pdf |
Pago y Envío Términos:
| Cantidad de orden mínima: | 1 pieza |
|---|---|
| Precio: | Negociable |
| Detalles de empaquetado: | Embalaje estándar de exportación |
| Tiempo de entrega: | 5- 8 días de trabajo |
| Capacidad de la fuente: | 60000 unidades por mes |
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Información detallada |
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| Tipo de membrana: | Fibra hueca de PVDF | Volumen de retención: | 35 L |
|---|---|---|---|
| peso: | 48 kilos / 83 kilos | Flujo de filtración: | 40 – 90 LMH |
| Tasa de flujo: | 2,0 – 6,9 m³/h | Temperatura: | 1 – 40°C |
Descripción de producto
The SFP-2860 Ultrafiltration (UF) Membrane Module is a high-performance pressurized membrane designed for reliable removal of suspended solids, bacteria, viruses, and colloidal particles.
Constructed with hydrophilic PVDF hollow fiber membranes, the module offers excellent mechanical strength, superior chemical resistance, and long service life. The outside-in flow configuration allows operation with higher feed water solids, reducing pretreatment requirements and minimizing operational costs.
With a compact structure and optimized membrane area, the SFP-2860 is particularly suitable for systems with height limitations while maintaining stable filtration performance.
This module is widely used in industrial water treatment, municipal water purification, and pretreatment for reverse osmosis (RO) systems.
- 0.03 μm nominal pore size for effective removal of bacteria and viruses
- High-strength PVDF hollow fiber membrane
- Hydrophilic membrane for easy cleaning and stable flux
- Outside-in filtration design, tolerant to high turbidity feed water
- Reduced backwash consumption
- Compact design suitable for skid-mounted systems
- Long membrane lifespan and stable performance
- Surface water treatment
- Seawater pretreatment
- Industrial wastewater reuse
- Municipal water treatment
- RO pretreatment systems
- Ultra-pure water (UPW) pretreatment
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Membrane area |
Module volume |
Weight (empty/ water filled) |
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| Model | Type | Part # | m² | ft² | Liters | Gallons | Kg | lbs |
| SFP-2860 | Pretreatment | 280933 | 51 | 549 | 35 | 9.3 | 48/83 | 106/183 |
| SFD-2860 |
NSF/ANSI 61 Drinking water |
324168 | 51 | 549 | 35 | 9.3 | 48/83 | 106/183 |
| Properties | Length | Diameter | Width | ||||
| Units | L | L1 | L2 | L3 | D | W1 | W2 |
| SI (mm) | 1860 | 1500 | 1630 | 1820 | 225 | 180 | 342 |
| SI units | US units | |
| Filtrate Flux @ 25ºC | 40-120 l/m²/ hr | 24-70 gfd |
| Flow range | 2.0 – 6.1 m³/hr | 9.2 – 26.7 gpm |
| Temperature | 1-40ºC | 34-104ºF |
| Max. inlet module pressure (@ 20ºC) | 6.25 bar | 93.75 psi |
| Max. operating TMP | 2.1 bar | 30 psi |
| Max operating air scour flow | 12 nm³/hr | 7.1 scfm |
| Max backwash pressure | 2.5 bar | 36 psi |
| Operating pH | 2- 11 | |
| NaOCl (max.) | 2,000 mg/L | |
| TSS (max.) | 100 mg/L | |
| Turbidity (max.) | 300 ntu | |
| Particle size (max.) | 300 µ | |
| Flow configuration | Outside in, dead end flow | |
| Expected filtrate turbidity | ≤0.1 NTU | |
| Expected filtrate SDI | ≤2.5 | |
Proper start-up of a UF system is indispensable for preparing the membranes for operational service and preventing membrane damage. Adhering to the correct start-up sequence also contributes to ensuring that the operating parameters of the system conform to the design specifications, thereby enabling the attainment of system water quality and productivity targets. Before commencing the system start-up procedures, membrane pretreatment, installation of the membrane modules, instrument calibration, and other system checks should be accomplished. Kindly refer to the product technical manual.
Avoid any sudden pressure fluctuations during start-up, shutdown, cleaning or other processes to prevent potential membrane damage. Flush the UF system to eliminate the shipping solution before start-up. Remove the residual air from the system before start-up. Manually initiate the equipment. Aim for a permeate flow of 60% of the design during the initial operations. Depending on the application, the permeate obtained from the initial operations should be disposed of. Please refer to the product technical manual.
NOTICE: NSF/ANSI 61 certified drinking water modules demand specific conditioning procedures before generating potable water. Please refer to the flushing section of the product technical manual for detailed procedures. Drinking water modules might be subject to additional regulatory constraints in certain countries. Please verify local regulatory guidelines and the application status before usage and sale.
The utilization of this product does not inevitably ensure the elimination of cysts and pathogens from water. Effective reduction of cysts and pathogens depends on the complete system design as well as the operation and maintenance of the system.
Notice: No inference should be made regarding the absence of infringement of any patent owned by Dow or others. As the use conditions and applicable laws may vary from one location to another and may change over time, the Customer is accountable for determining whether the products and the information in this document are suitable for the Customer's use and for ensuring that the Customer's workplace and disposal practices comply with applicable laws and other governmental enactments. The product presented in this literature might not be available for sale and/or available in all geographical areas where Dow is represented. The claims made might not have been approved for use in all countries. Dow assumes no obligation or liability for the information in this document. References to "Dow" or the "Company" signify the Dow legal entity selling the products to the Customer unless otherwise explicitly noted. NO WARRANTIES ARE PROVIDED; ALL IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE ARE EXPRESSLY DISCLAIMED.
FG Water Technologies (www.fgwater.com) is now an organic part of Wuxi Fenigal Science and Technology Co. Ltd., which is a high-tech entity integrating water treatment quipment design, manufacturing, trading and shipment served for main industrial sectors.
HAFE-FG Water Technologies has focused on the research of water treatment technology, equipment development and manufacturing, testing and international shipment etc. We work with many leading large-scale or small-medium original equipment manufacturers in China High-tech Development Zones, and engaged ourselves in R&D, manufacturing, and quality testing.
Our main products include a variety of water purification and different treatment equipment, such as seawater reverse osmosis (SWRO) system, brackish water rever osmosis (BWRO), ultrafiltration (UF)system, Electrodeionization/EDI equipment, media pressure filters and ion exchanger softeners. So far, our company has become a major water treatment equipment supplier for food and beverage industry, pharmaceutical industry, chemical industry, electric power industry, urban water supply industry, municipal and industrial wastewater treatment and more industries, as well as being an exporter to more than 20 countries and regions in Asia, Europe, the Americas, Africa, etc.
Our production system consist of a list of industry-specialized partnership factories accross China. Some of them singularly cover an area of over 10,000 square meters, including 5,000 square meters of workshop and warehouse and 1,500 square meters of office buildings. All of our technical staff has more than 10 years of experience in the design of water treatment systems, so we are able to provide the perfect solution for all kinds of water purification and sewage treatment applications.
Since the establishment, the Company has always regarded quality as the life of our business. We choose the best components only for the production of various water treatment systems. Our systems are easy to use and maintain, and they stays highly reliable even under toughest conditions.