How will you deal with produced water?
From public outcry about the environmental impact of fracking, to disposal regulations, limited number of disposal wells, and trucking and infrastructure issues, the focus on water recycling is becoming more critical than ever.
Water resources are becoming scarce. Cost effective water recycling is critical to the success of the expanding global fracking oil and gas activities.
Using advanced silicon carbide membranes from significantly reduces the equipment footprint, capital costs, shortens the water treatment process and reduces chemical usage.
Ceramic membrane filters offer longer life, corrosion and erosion resistance and the highest flux of any membranes on the market.
Advanced silicon carbide membranes can remove total suspended solids, hydrocarbons (oil) and our filters offer the highest flux of any membrane materials.
Advanced silicon carbide membranes are chemically robust, and abrasion and erosion resistant. These membranes can be run in high temperature conditions and exhibit minimal fouling. Membranes can be cleaned in place to maintain consistent flux. This results in consistent output, reduced maintenance, and lower equipment and labor costs.
Specifications:
Typical properties of Carrier material:
Chemical resistance:0 to 14 PH value
Maximum application temperature:< 1000°C (in air)
Porosity:≥ 40%
Back pulse pressure:max. 6 bar
Cracking pressure:> 100 bar
Ceramic filter applications:
Applications that involve extreme conditions, such as extreme high temperatures, pressures or pressure pulses and high corrosive solvents such as strong acids or lyes.
Filtration of media containing abrasive particles or for high solids bulk processes.
Benefit:
Excellent corrosion resistance vs. concentrated lyes and acids
Ability to withstand high frequency backpulsing cycles
Thermal stability up to 1000°C in air
High chemical and pH compatibility
Excellent permeability and ability to handle high solid concentration, e.g. SiC slurries with up to 75% solid content
Easy cleaning by a variety of methods, e.g. thermal and chemical treatment or back pressure pulses
High pressure stability
Long operational life
High flux
