SEPARATION MEDIA PRECISION IN EVERY MICRON

Texfill, the engineered-Filter media division of Supertech Fabrics Pvt. Ltd., designs and manufactures high-performance filter media for air and liquid duties, engineered for high capture efficiency, low and stable ΔP, resistance to thermal/chemical load, and superior lifecycle economics.

We customise media architecture—fiber chemistry, weight, pore-size distribution (PSD), and surface engineering—to application conditions, offering non woven felts, technical woven fabrics, and composites with options such as ePTFE/PVDF membranes and singed, calendared, PTFE-coated, hydrophobic/oleophobic, or antistatic finishes.

Performance is validated to relevant ISO/ASTM/VDI methods with full lot traceability, while application coverage spans industrial dust collection (baghouses, cartridges), water and wastewater clarification/polishing, pharmaceutical and bioprocess pre-filtra tion, and automotive/metalworking coolant and paint systems. Engagements follow a co-engineering model with rapid prototyping and scale-up to deliver durable media that balance efficiency, regeneration/cake release, uptime, and total cost of ownership.

Superior filtration efficiency (captures 99.99%+ target particles)
Even pore size constancy (close proximity of nominal pore size and bubble point)
Higher through put
Modified surface energy
Low static / pressure drop
Robust chemical resistance
Treatments like OWR, Anti static etc make the filtration process effective
High life cycle
Compliance with environmental regulations

MERV 2-8 | >3 µm

Coarse Particulate Filters

MERV 8-13 | 1-3 µm

Micro Filtration | Cartridge Filtration | Bag House Filters | Membrane

MERV 14+ | <1 µm

Micro Filtration | Ultra Filtration | Membrane

PURPOSE FOR SEPERATION OR FILTERATION PROCESS

PROCESS: SEPARATION AND RECOVERY

• Particle Recovery post process
Inlet feed filtration for • process
Air | Liquid | Gas

AIR POLLUTION CONTROL (APC)

• Filtration done primarily for stop dust, ash or any
particulate matter in environment, either liquid or air.

Hydraulic and Oil Filters

• Clean essential system fluids and fuel

LIQUID DISCHARGE CONTROL

• Filtration done primarily for stop dust, ash or any
particulate matter in environment, either liquid or air.

STERILE FILTERS

• Anti Microbial Effect

Gas Neutralisation

• For corrosive gas mitigation using Catalyst

SECTORS AND MARKETS

Cement plant filtration systems for mineral processing and dust control

Cement and Mineral

Kiln, clinker cooler, raw mill.

Industrial conveyor system for food manufacturing processes in a factory environment

Food & Beverage

• Conveyor belts
• Baking sheets and mats
• Food wrapping

Industrial filtration fabric for paper and pulp processing systems

Paper & Pulp

Fiber dust filtration for pulp processing air systems.

Fire resistant fabric used in steel plant safety operations and worker protectionsss

Stell / Ferro Alloys

Electric arc furnace, induction furnace, smelting, refining, secondary fume extraction.

Carbon Black

Furnace tail gas filtration.

Cooling tower at power plant for thermal insulation applications

Power Industry

We help keep things moving with strong, reliable materials. Packages stay safe, and transport runs more smoothly.

Waste to Energy

High-temperature flue gas particulate filtration media.

Oil and Gas

• Fire and spark blankets for offshore rigs and compressor stations
• Thermal insulation for missile bays and propulsion system compartments

Chemicals & Petrochemicals

• Fire and spark blankets for offshore rigs and compressor stations
• Thermal insulation for missile bays and propulsion system compartments

Steel plant pouring molten metal in casting process

Non Ferro Metals

High-heat metal fume and dust filtration fabrics.

Glass ampules on industrial filling machine in pharmaceutical production line

Pharmaceutical & Nutraceuticals

Cleanroom-grade powder processing filtration textile solutions.

FILTRATION MEDIA TYPE

Parameter	Particulate Filtration	Micro Filtration	Ultra Filtration
Typical Pore Size	>1 µm	0.1 - 1 µm	0.01 - 1 µm
Material	Nonwoven, Woven, Metal ePTFE membrane	PVDF, PES Membrane Fibre Glass, Cellulose non woven	PVDF, PES, PAN Membrane
Pressure Req.	Low	Low to Medium	Medium to High
Common Form	Bags, Cartridges, Mesh	Membranes, Cartridges	Hollow Fibre, Spiral-wound

Air/Gas Filtration
Liquid Filtration
Vacuum/Pressure Filtration
Membrane Filtration

FILTRATION SPECTRUM

Chart of industrial filtration fabric applications by particle size range and filtration type

FILTRATION APPLICATION EQUIPMENT

Baghouses
Candle filers
Centrifuges
Centrifugal sifters
Coolant Belt Filters
Filter Presses

Fluid Bed Dryers
Pressure Plate Filters
Horizontal Disc Filters
Pressure Leaf Filters
Plansifters
Purifiers

Rotary Disc Filters
Rotary Drum Filters
Vacuum Belt Dryers
Vacuum Belt Filters
Vacuum Leaf Filters

Baghouse system for steel plant dust collection using industrial filtration fabric

Candle filter system for industrial filtration processes in textile manufacturing

Basket centrifuge industrial textile manufacturing equipment process illustration

Fluid bed dryer diagram for industrial textile manufacturing systems

Horizontal disc filter for industrial filtration processes

Industrial process system plansifter for textile manufacturing applications

Industrial filtration fabric used in pressure leaf filter systems for liquid-solid separation

Vacuum leaf filter for industrial filtration in technical fabric manufacturing

Centrifugal sifter diagram for industrial filtration systems in textile manufacturing

Coolant belt filter for industrial textile manufacturing processes

Industrial filtration fabric in filter press for process systems

Rotary disc filter for industrial filtration in textile manufacturing processes

Rotary drum filter for industrial textile manufacturing processes

Vacuum belt dryer for industrial textile processing systems

Vacuum belt filter for industrial processing and filtration systems

EXCEEDING STANDARDS IN FILTRATION TECHNOLOGY

Texfil, filtration performance is engineered not assumed. Every media we develop is designed through a controlled scientific process that blends advanced fibre chemistry, precision pore-size distribution, and application-specific surface engineering. This ensures stable pressure drop, superior capture efficiency, and longer service life even under demanding thermal, chemical, and mechanical loads.

Our filtration solutions are validated through SEM-based morphology analysis, particle-size characterisation, and equipment-behaviour modelling to ensure that real-world performance exceeds laboratory benchmarks. Each production lot is fully traceable and tested to relevant ISO, ASTM, and VDI protocols, guaranteeing consistency and reliability across high-volume industrial deployments.