Fluence MABR (membrane aerated biofilm reactor) technology address the critical challenges of wastewater treatment plants for: nutrient reduction, high effluent quality, compliance with regulations, minimized energy consumption, at a small footprint, whil
In waste water treatment systems our membranes are used with great success for the filtration of cleaning chemicals (surface treatment), for cell separation after biological processes, or for the recycling of paints and lacquers.
In the field of waste water treatment atech membranes are used, for example, for the filtration of cleaning chemicals (surface treatment), for cell separation after biological processes, or for the recycling of paints and lacquers
Many wastewater streams contain suspended solids that need to be disposed of or cause problems in ‘downstream’ wastewater treatment systems. Effective TSS removal is an important step to purify water sufficiently for reuse, thereby lowering the requirement for fresh water.
Aquatech is committed to being the leader in membrane technology with a focus on breaking barriers related to pretreatment, energy recovery, and overall water recovery. We are progressively making strides in optimizing the lifecycle cost and increasing the reliability of SWRO equipment installations. Our approach is to take complete responsibility of SWRO plant installations to ensure complete design integration….. from intake to outfall, Aquatech can take single point responsibility.
• More than a decade of...
Today’s consumers require safe and reliable drinking water solutions without depleting our scarce water resources. Our Aquaporin Inside® Reverse Osmosis (RO) membrane offers just that – a sustainable and safe way to purify water for residential and commercial use.
Membrane technology has made major progress in recent years and is nowadays the method of choice for many processes in the chemical industry, wherever substances are to be separated efficiently and gently.
A prime example of this is dia-filtration, in which solutes and particles with higher molecular weights are retained while solutes with lower molecular weights are "washed" out of the process fluid.
Membrane press filter is composed of diaphragm plates and van plates. The feeding pump press the slurry to enter the filter chamber.When the filter material become after filter cake through the filter cloth.Then gas will be guided into septum,giving enough pressure to solid and lowering its water content.
Removing the salts and pollutants in the eachstage of production sewage, meeting production and recycling requirements, allrecycled, no waste liquid to rule out factory. The salt and pollutant whichareconcentrated into solid or liquid at high magnification are treated separately in the form of solid waste.
THE AQQA® technology is used onboard ships to: treat the wastewater in membrane bio reactors so that it complies with the regulations of the IMO (International Maritime Organization) for discharge into the sea in special areas ensure clear wastewater effluent with bathing water quality
The world’s surface is slightly over 70% water with billions of gallons of surface water and ground water used daily in society. Whether it is for drinking, hygiene, washing, cooking, recreation, agriculture, or power generation and industrial coolants, water is an undeniable source of life.
based in Pittsburgh, PENNSYLVANIA (USA).
MIOX’s patented Mixed Oxidant Solution (MOS) or Hypochlorite (HYPO)chemistries for cooling tower and cooling loop water disinfection improves safety, lowers general corrosion rates, increases performance, and saves money. The unique qualities of MOS lowers corrosion rates by 80% in copper and 50% in steel, resulting in a reduction of downtime, maintenance, and expense. Additionally, MIOX generators improve workplace safety by eliminating the handling and storage of hazardous chemicals while maintaining...
QUA’s CeraQ ceramic membrane modules
are designed for challenging water and
wastewater applications. The CeraQ
modules consist of 3.5 mm ID ceramic tubular
elements potted into bundles for various
surface area requirements. The module is
capable of removing virus, bacteria, colloidal
matter, submicron or micron sized suspended
particles, oil and organics from a wide range
of fluids, including drinking water and
industrial wastewater to economically meet
variety of treatment objectives or to recycle
Municipalities around the world have a common rallying cry; how can I do more with less? Increasing populations are stressing the hydraulic capacities of existing treatment plants with no room for expansion. Regulation discharge limits continue to be lowered, further challenging plant compliance. With more constraints and limited funding, plants know that conventional membrane technology or the introduction of a new aeration technique is not the answer. A better membrane design, with improved operating techniques...
IPC’s cleaners are used throughout the oil and gas industry for cleaning equipment and filter membranes. They are excellent alternatives to hazardous, solvent based degreasers. Our cleaners remove oils and greases, sludge, mud, cutting fluids, flux, and petroleum residues. Clean equipment helps to ensure that operations run smoothly and efficiently.
We understand how critical it is to get the industrial cleaning done so your plant can continue operating at peak efficiency. Our cleaners remove dirt, grease, oil, metal fines, flux, and other particulates from parts and equipment without the hazards associated with solvents. When rinsed properly our cleaners leave no residue and your precision parts are ready for further processing. Products are available for manual and automated cleaning systems. only qualitative production for all transportAn economical 1-2%...
The essential challenges of today are to ensure cost effective treatment and recycling processes for water and wastewater. Membrane technology solves this task by being an innovative and trendsetting technology. Today membranes are successfully used for the treatment of municipal and industrial wastewater as well as for the production of drinking and process water from surface water. Membrane technology and membrane bioreactors (MBR) are especially important in arid zones for the recovery of clean water for reuse...