PES
CAPILLARY
TECHNOLOGY
PES
CAPILLARY
TECHNOLOGY
PES
CAPILLARY
TECHNOLOGY
Next generation NIPS Technology
Unique proprietary non-solvent induced phase separation (NIPS) method for manufacturing membrane elements with high mechanical strength and excellent water flux
Next generation NIPS Technology
Unique proprietary non-solvent induced phase separation (NIPS) method for manufacturing membrane elements with high mechanical strength and excellent water flux
Next generation NIPS Technology
Unique proprietary non-solvent induced phase separation (NIPS) method for manufacturing membrane elements with high mechanical strength and excellent water flux
Innovative capillary design
Innovative capillary design
Innovative capillary design
Novel multi-channel membrane with polygonal shape for 15% higher surface area density, saving plant space
High mechanical strength providing greater reliability and long product life
High water flux
Efficient backwash cleaning
Novel multi-channel membrane with polygonal shape for 15% higher surface area density, saving plant space
High mechanical strength providing greater reliability and long product life
High water flux
Efficient backwash cleaning
Novel multi-channel membrane with polygonal shape for 15% higher surface area density, saving plant space
High mechanical strength providing greater reliability and long product life
High water flux
Efficient backwash cleaning
Rigid Wall Microstructure
Rigid Wall Microstructure
Rigid Wall Microstructure
Our proprietary NIPS phase decomposition technology achieve microporous sponge structure with narrow pore size distribution across the wall thickness to provide high mechanical strength to the membrane tube. Pores on outer membrane surface are order of magnitude larger than the pores on selective internal surface. Thus pressure drop across the membrane wall thickness is minimal.
Our proprietary NIPS phase decomposition technology achieve microporous sponge structure with narrow pore size distribution across the wall thickness to provide high mechanical strength to the membrane tube. Pores on outer membrane surface are order of magnitude larger than the pores on selective internal surface. Thus pressure drop across the membrane wall thickness is minimal.
Our proprietary NIPS phase decomposition technology achieve microporous sponge structure with narrow pore size distribution across the wall thickness to provide high mechanical strength to the membrane tube. Pores on outer membrane surface are order of magnitude larger than the pores on selective internal surface. Thus pressure drop across the membrane wall thickness is minimal.
Thin Separation Layer
Thin Separation Layer
Thin Separation Layer
Our capillary membranes have very thin separating layer for low pressure drop in the filtration process. The pores on the skin are of uniform size and shape to provide sharp separation cutoff at molecular scale. It insures high quality filtration with lower operating cost.
Our capillary membranes have very thin separating layer for low pressure drop in the filtration process. The pores on the skin are of uniform size and shape to provide sharp separation cutoff at molecular scale. It insures high quality filtration with lower operating cost.
Our capillary membranes have very thin separating layer for low pressure drop in the filtration process. The pores on the skin are of uniform size and shape to provide sharp separation cutoff at molecular scale. It insures high quality filtration with lower operating cost.
Solution Spectrum
Solution Spectrum
Solution Spectrum
Apah membranes provide solution for ultrafiltration and microfiltration range. Apah’s state of art UF membranes “HyprFLUX” delivers highest surface area, maximum packing density, fouling resistance, low energy requirements and wide pH tolerance for cleaning.
POLYSEP membranes are engineered tightly enough for low molecular weight dissolved components of molecular weight range 5kDa to 200kDa. Our MF membranes “FILTERCELL” are are designed for separation of biological cells, and cellular debris from a liquid suspensions.
Apah membranes provide solution for ultrafiltration and microfiltration range. Apah’s state of art UF membranes “HyprFLUX” delivers highest surface area, maximum packing density, fouling resistance, low energy requirements and wide pH tolerance for cleaning.
POLYSEP membranes are engineered tightly enough for low molecular weight dissolved components of molecular weight range 5kDa to 200kDa. Our MF membranes “FILTERCELL” are are designed for separation of biological cells, and cellular debris from a liquid suspensions.
Apah membranes provide solution for ultrafiltration and microfiltration range. Apah’s state of art UF membranes “HyprFLUX” delivers highest surface area, maximum packing density, fouling resistance, low energy requirements and wide pH tolerance for cleaning.
POLYSEP membranes are engineered tightly enough for low molecular weight dissolved components of molecular weight range 5kDa to 200kDa. Our MF membranes “FILTERCELL” are are designed for separation of biological cells, and cellular debris from a liquid suspensions.
More about Capillary
Membrane Microstructure
More about Capillary
Even distribution of pores
Even distribution of pores
Evenly distributed pores yield good flux of membrane
Evenly distributed pores yield good flux of membrane
Evenly distributed pores yield good flux of membrane
Selective Inner Surface
Selective Inner Surface
Porous & selective capillary inner surface provide proper filtration
Porous & selective capillary inner surface provide proper filtration
Office
92, Yamuna Industrial Park
Dhamatwan, Ahmedabad
GJ, Ind, 382435
Office
92, Yamuna Industrial Park
Dhamatwan, Ahmedabad
GJ, Ind, 382435
Office
92, Yamuna Industrial Park
Dhamatwan, Ahmedabad
GJ, Ind, 382435
Mail: info@apahtech.in
Phone: +91 6367858562
Mail: info@apahtech.in
Phone: +91 6367656532
Mail: info@apahtech.in
Phone: +91 6367858562
Mail: info@apahtech.in
Phone: +91 6367858562
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Company & Links
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© 2024 Apah Technologies Pvt Ltd. All Rights Reserved.
© 2024 Apah Technologies Pvt Ltd. All Rights Reserved.
Office
92, Yamuna Industrial Park
Dhamatwan, Ahmedabad
GJ, Ind, 382435
Mail: info@apahtech.in
Phone: +91 6367858562
Company & Links
Follow us at
© 2024 Apah Technologies Pvt Ltd. All Rights Reserved.