Backed with rich expertise and knowledge in this field, we are counted amongst the foremost manufacturers and exporters of finest quality Demister Pads. We design and manufacture these pads as per the industrial quality and standards using different types of quality materials. Demister Pads, we are offering in the market, find wide application in diverse industries of chemical, petrochemical, petroleum and refining industries.
- Tear resistant
- Durable quality
- Smooth finish
Demister Pad is also known as mist eliminator, diesel injector filter, knitted wiremesh, mister screen, socks e.t.c. We manufacture demister pads as per customer specifications.
Range of Production: Demister pads can be produced in varied degree of density with 99.99% accuracy.
Wire Diameter:0.35mm to 0.024mm
Tube Width: 1/4" to 42" diameter
Material: Stainless Steel, G.I., Copper, Brass, Inconal, Nicrom, Nickel, Silver, Gold, Platinum, Nylon, HDPE,
Glassfiber-Stainless Steel Mix, e.t.c.
Mist eliminators: It is a cost-effective and highly efficient means of removing liquid droplets from vapour streams or gas. It finds its application mainly in petrochemical, chemical, refinisng and allied industries. Other than this mist eliminators are used for:
Distillation columns – Improves the quality of the product quality
Evaporators - It prevents the loss of valuable materials that are in liquid state.
Gas Scrubbers – They improve the separation of the liquid and leaves the gas clean.
Knockout Drums - Capital expense is reduced by reducing the dimensions of the vessel.
Absorbers - Loss of valuable solvents is prevented by it
Refinery columns – By the reduction of metals and carbon it enhanced product throughput and catalyst usability.
Catalysts- The oxidation catalysts produced by us are made of excellent quality wire mesh. It’s flexibility helps in tailoring the catalysts as per the respective application/requirement.
Catalytic converters: It is a pollutant control device that converts pollutants and toxic gases into non-toxic pollutants by catalyzing a redox reaction.