Ceramic membranes are widely applied in a number of industrial water treatment applications. for example as pre-treatment to reverse osmosis or nano filtration. Using our new generation ceramic membranes will enable a durability which provides limited maintenance and an operating life which is expected to exceed 20 years. Moreover, it enables filtration of fluids where organic and other ceramic membrane fall short, such as presence of caustics, solvents, polymers, oxidants and strong acids.
TenCate Geotube technology provides cost-effective and sure dewatering and containment in a wide variety of industries. In Power and Utility, Pulp and Paper and other general industries that produce sludge, TenCate Geotube dewatering technology enables the recovery of valuable materials, provides structural stability, improves water quality, or just reduces storage footprint by sometimes 50 to 80%. The dewatering containers can be custom-sized to the application, placed in available space between other structures...
Anaerobic digestion is a series of processes in which microorganisms break down biodegradable material in the absence of oxygen, used for industrial or domestic purposes to manage waste and/or to release energy. It is widely used as part of the process to treat wastewater, like Upflow Anaerobic Sludge Blanket (UASB) reactors. As part of an integrated waste management system, anaerobic digestion reduces the emission of landfill gas into the atmosphere. Anaerobic digestion is widely used as a renewable energy...
Peristaltic pumps are proven performers in water and waste treatment solving problems including: Dosing and metering treatment chemicals and reagents including ferric chloride (“Ferric”), sodium hypochlorite (“Hypo”), chlorine water, lime (Kalic® or Kalkmilch), caustic soda, powder activated carbon and polymers. Sludge transfer. Filter press feeds.
Problem: Drinking water plants that use surface water or ground water under the influence of surface water are susceptible to high levels of organic matter in the raw water. Reduction of organic matter through coagulation/sedimentation and filtration is important to lower the potential for disinfection by-product formation (DBP) and limit operational problems. In addition, organics in water consume the polymers used for the coagulation process, which reduces the efficiency of the treatment. Therefore, optimization...
In Regards to applications in Recycling Area Pieralisi provides efficient solutions to treatment processes for Drilling Mud, Treatment and recycling of Industrial Fluids, recycling of Polymers and their respective recyclables, Recycling of services water in industrial processes and many other applications.
Value in Municipal Wastewater Treatment
WILSA® technology can benefit municipal wastewater treatment by altering the physical properties of water-based slurries entering the separation process to decrease chemicals, drop suspended solids, and allow solids to more readily separate from water.
Installation of WILSA® ElectroWave Conditioner upstream of a belt press at a wastewater treatment plant resulted in polymer usage dropping by >50% while achieving much dryer solids .
Enhanced Oil Recovery (EOR) is a broad O&G Industry term, but almost always involves some kind of water treatment processes. Whether you are trying to increase injectivity, kill bacteria, break emulsions or destroy polymers, MIOX has equipment to help. MIOX’s exclusive Mixed Oxidant technology turns your EOR site into an on-demand chemistry factory - eliminating middle men and lowering costs.
Please see files for more information.
The following mechanisms of direct bacteria-uranium interactions are described:
i) oxidation of U(IV) to U(VI) resulting in solubilization;
ii) bioaccumulation, which includes processes of bio-sorption by cell surface
iii) reduction of U(VI) to insoluble U(IV); polymers and/or uptake inside the cells.
iv) The U(VI) accumulated both on the bacterial surfaces or inside the cells as well as biologically reduced U(IV) precipitates can initiate bio-mineralization processes,...
Please see files for more information. The following mechanisms of direct bacteria-uranium interactions are described: i) oxidation of U(IV) to U(VI) resulting in solubilization; ii) bioaccumulation, which includes processes of bio-sorption by cell surface iii) reduction of U(VI) to insoluble U(IV); polymers and/or uptake inside the cells. iv) The U(VI) accumulated both on the bacterial surfaces or inside the cells as well as biologically reduced U(IV) precipitates can initiate bio-mineralization processes, which...
IMPROVED BIOSOLIDS/ BIO SLUDGE DEWATERING WITH WILSA® CONDITIONING
The WILSA ElectroWave™ effect can be used to condition polar fluids to alter their physical
properties, improving several chemical and physical processes.
- Reducing surface tension to improve the ability of water to repel solids - break physical / chemical emulsions
- Increasing the contact angle of water - improve coalescing of solid particulate toaccelerate phase separation
- Lowering the viscosity of water - reduce friction of flocculated...