TEAM (HITEC) UF (Ultrafiltration) Membranes
We are Dealer, Distributor, Trader, Supplier, Exporter of TEAM (HITEC) UF (Ultrafiltration) Membranes and our setup is situated in
Pune, Maharashtra, India.
We are also Services Provider of above products in Mumbai, Nashik, Aurangabad, Kolhapur, Sangli, Satara, Raigad, Maharashtra, Gujrat and Karanataka, India
About TEAM
Titanium Equipment and Anode Manufacturing Company Limited, commonly known as TEAM, has dedicated itself to the exploration and development of capillary-type polymeric membranes for Ultra Filtration (UF) with hollow fibers, catering to both domestic and industrial water applications to ensure 100% bacteria-free water. The group consistently directs its efforts toward pioneering technologies that hold global significance, such as energy preservation, safeguarding the environment, enhancing water resources, all while remaining highly competitive. The MHT membranes boast superior flux rates, translating to heightened productivity and robustness. Thanks to the exclusive design of the MRTS hardware, there has been a substantial reduction in capital costs. With a regional membrane manufacturing facility solely owned in India, MRTS stands out in offering Ultra Filtration Membranes at competitive prices to its clientele while delivering exceptional service support. Bolstered by a formidable research division backed by global membrane experts, MHT perpetually enhances its technological foundations and seeks new avenues in diverse applications.
About HITEC UF Membranes
TEAM has been master in developing PES type UF membrane since 2000 . With its more than 20 years of vast experience TEAM has been able to achieve highest level of precision and accuracy in manufacturing products, and has delivered highest quality of UF membranes that are working properly over life span of 10+ years across various industries, while delivering constat output parameters. Team has 2 types of PES UF membranes broadly classifies accoridinf to its filtration size.
100 KD UF Membranes
Polyether sulfone (PES) type 100 KD UF membranes are engineered marvels crafted through a meticulous manufacturing process. These membranes are synthesized using advanced polymeric materials, specifically polyether sulfone, which undergoes precise casting and stretching techniques to create hollow fibre structures.
During manufacturing, the polyether sulfone is dissolved into a solution and extruded through fine spinnerets to form hollow fibres. These fibres are then bundled together to create a matrix that serves as the foundation of the membrane. The controlled stretching and casting processes ensure the membranes possess uniform pore sizes and structural integrity, allowing for exceptional filtration capabilities.
The applications for these PES type 100 KD UF membranes span various industries. They are extensively utilized in water purification systems for both industrial and domestic purposes due to their remarkable ability to effectively filter out bacteria, particulates, and other impurities from water. Additionally, these membranes find utility in pharmaceutical manufacturing, food and beverage processing, biotechnology, and wastewater treatment, owing to their high filtration efficiency and durability. Their adaptability across diverse sectors makes them a cornerstone in ensuring cleaner, safer, and higher-quality water and liquid products.
Applications Of 100 KD Membranes
| Model | RDMT-RM-20XVI-SBM-100KD | RDMT-RM-35XVI-SBM-100KD | RDMT-RM-50XVI-SBM-100KD | RDMT-RM-65XVI-SBM-100KD | RDMT-RM-81XVI-SBM-100KD | RDMT-RM-100XVI-SBM-100KD |
|---|---|---|---|---|---|---|
| Area | 20m2 | 35 m2 | 50 m2 | 65 m2 | 81 m2 | 100 m2 |
| Fiber Material | PES | PES | PES | PES | PES | PES |
| Housing Material | UPVC | UPVC | UPVC | UPVC | UPVC | UPVC |
| End Cap Material | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 |
| Fiber Bore Size (Micron) | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 |
| MWCO | 100 KD | 100 KD | 100 KD | 100 KD | 100 KD | 100 KD |
| Operating Temperature (deg. cel.) | 15-45 | 15-45 | 15-45 | 15-45 | 15-45 | 15-45 |
| Mode Of Operation | In to OUT | In to OUT | In to OUT | In to OUT | In to OUT | In to OUT |
| Operating Flux (LMH) | 30-120 | 30-120 | 30-120 | 30-120 | 30-120 | 30-120 |
| Backwash Flux (LMH) | 170-240 | 170-240 | 170-240 | 170-240 | 170-240 | 170-240 |
| Transmembrane Pressure (bar) | 1 | 1 | 1 | 1 | 1 | 1 |
| Backwash pressure (bar) | 2 | 2 | 2 | 2 | 2 | 2 |
| pH Range During Operation | 10-Apr | 10-Apr | 10-Apr | 10-Apr | 10-Apr | 10-Apr |
| pH Range During Cleaning | 14-Feb | 14-Feb | 14-Feb | 14-Feb | 14-Feb | 14-Feb |
10 KD UF Membranes
10 kD (kilodalton) Ultrafiltration (UF) membranes are engineered with a specific molecular weight cutoff of 10,000 Daltons, offering precise filtration capabilities. These membranes are adept at separating molecules and particles based on their sizes and molecular weights. In particular, 10 kD UF membranes excel in removing colloidal silica, a challenging contaminant due to its small particle size and colloidal nature.
Colloidal silica removal is a critical application for industries such as water treatment, semiconductor manufacturing, and pharmaceutical production. Colloidal silica consists of tiny suspended particles that are challenging to eliminate through conventional filtration methods. However, 10 kD UF membranes effectively address this challenge by selectively allowing molecules and particles below their molecular weight cutoff to pass through while retaining larger molecules, colloids, and particles, including colloidal silica.
The effectiveness of 10 kD UF membranes in removing colloidal silica is notably high. These membranes efficiently reject colloidal silica particles due to their smaller pore size compared to the size of the silica particles, preventing their passage through the membrane. This results in purified water or solution with reduced colloidal silica content, meeting stringent purity standards required in various industries.
Differences between 10 kD and 100 kD UF membranes lie primarily in their molecular weight cutoffs and respective filtration capabilities. The 10 kD membranes have a lower molecular weight cutoff than the 100 kD membranes, meaning they can effectively filter out smaller molecules and particles. Consequently, 10 kD UF membranes are more suitable for removing smaller contaminants like colloidal silica, while 100 kD UF membranes are better suited for larger molecules and particles.
Applications Of 10 KD UF Membranes
| Model | RDMT-RM-35XVI-SBM-100KD | RDMT-RM-50XVI-SBM-100KD | RDMT-RM-65XVI-SBM-100KD | RDMT-RM-81XVI-SBM-100KD | RDMT-RM-100XVI-SBM-100KD |
|---|---|---|---|---|---|
| Area | 35 m2 | 50 m2 | 65 m2 | 81 m2 | 100 m2 |
| Fiber Material | PES | PES | PES | PES | PES |
| Housing Material | UPVC | UPVC | UPVC | UPVC | UPVC |
| End Cap Material | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 | PPGF/SS304 |
| Fiber Bore Size (Micron) | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 | 0.01-0.05 |
| MWCO | 10 KD | 10 KD | 10 KD | 10 KD | 10 KD |
| Operating Temperature (deg. cel.) | 15-45 | 15-45 | 15-45 | 15-45 | 15-45 |
| Mode Of Operation | In to OUT | In to OUT | In to OUT | In to OUT | In to OUT |
| Operating Flux (LMH) | 30-120 | 30-120 | 30-120 | 30-120 | 30-120 |
| Backwash Flux (LMH) | 170-240 | 170-240 | 170-240 | 170-240 | 170-240 |
| Transmembrane Pressure (bar) | 1 | 1 | 1 | 1 | 1 |
| Backwash pressure (bar) | 2 | 2 | 2 | 2 | 2 |
| pH Range During Operation | 4-10 | 4-10 | 4-10 | 4-10 | 4-10 |
| pH Range During Cleaning | 2-14 | 2-14 | 2-14 | 2-14 | 2-14 |