Fluence has decades of experience providing sustainable treatment solutions for power industry process water and effluent. Industrialization and population growth are spurring the demand for power around the world, putting pressure on fuel and water resources. At the same time, power producers face strict pollution and air-quality controls.
UV, Ozone and Advanced Oxidation Technologies are innovative approaches to safely disinfecting and destroying organic pollutants in water, industrial waste waters, ground waters and gas effluents. These processes do not simply transfer pollutants to other mediums. Unlike other disinfection and oxidation techniques, UV, Ozone and advanced oxidation processes do not create toxic by-products. The ultimate end products of the advanced oxidation processes are carbon dioxide and water.
ENEXIO Water Technologies delivers efficient solutions for industrial and municipal water and waste water treatment. They include process calculation and design of the plant, delivery of fill media or lamella clarifiers and necessary auxiliaries such as support construction, launders, rotary distributors as well as supervision and on-site assembly equipment.
The amount of wastewater and effluent getting generated is steadily increasing with increased urbanization, economic growth and many other socio-economic factors. Today, nearly half of all the water that gets treated is wastewater. The primary concern of wastewater disinfection is the removal of pathogenic microorganisms. Secondarily, wastewater discharge should not contain compounds with environmental health impacts. While a chlorine residual is desirable in drinking water treatment, it is not desirable in...
Many chemical and pharmaceutical plants strive to reduce their overall carbon and water footprint. Paques technologies support this aim through their low energy requirement, the production of green energy, and the recovery of valuable resources.
Water sustainability has become a significant issue for FMCG companies. Many companies publish information on their water usage and are committed to reducing their carbon and water footprints. Paques’ technologies for treating water and gas can significantly contribute to this aim.
The wastewater quality of industrial effluents varies a lot depending on the type of industry. Even in the same industry one can observe significant differences in characteristics of the wastewater to be treated. For this reason each application needs a
Treatment solutions for water and effluent from electroplating and galvanizing industry. Treatments of rinsing water and effluents obtained from surface treatments of: metals, special alloys, and plastic. SAITA provides plants and solutions such as: Zero discharge plant, recycling of rinsing waters, polluted baths’ filtration, chemical-physical treatment plants, demineralization and reverse osmosis plants and evaporators.
Chromating // Nickel-plating // Galvanizing // Electroless nickel //...
Industrial effluents are often tightly regulated with specific discharge consents for organic loading. The Proteus BOD can provide users with a real-time data stream of BOD, COD and TOC ensuring final effluent is always compliant. Operatives can be alerted in real-time to any trends that might indicate process issues, resulting in earlier intervention and avoidance of fines and reputational damage. Whether food and beverage effluents or leachate from landfill the Proteus range has a solution for your monitoring...
Bilfinger Water Technologies produces and installs filtration plants in chemical – pharmaceutical fields since the early 1970s. The filtration systems developed by Bilfinger Water Technologies during this 30 year-experience are particularly appreciated in solid liquid separation processes and dewatering of treating effluents. These separation processes play a very important role in the chemical pharmaceutical field, being essential elements of many production processes.
The main objective in wastewater treatment is to allow human and industrial effluent to be disposed of without endangering human health or the natural environment. We, in EPT, design "tailor made" solutions include physical/chemical and/or biological treatment. The biological solutions includes aerobic treatment, anaerobic treatment allowing biogas production as well as membrane technologies enabling water reuse.
EVALED evaporators treat or minimize wastewater from the Power Generation Industry. Flue gas desulfurization effluents require different kinds of treatments depending on the type of fuel, water sources, and environmental regulations.
Problem: Industrial manufacturers face stringent regulations for discharging wastewater to the environment and municipal sewer systems. Biochemical Oxygen Demand (BOD) is a primary concern for many discharge limits, as wastewaters high in BOD can have adverse impacts on the aquatic environments by leading to oxygen depletion. In some cases, as a means to supplement BOD, it is also desirable to monitor chemical oxygen demand (COD) of industrial effluents. Both of these tests, are time and labour intensive reducing...
To separate solids from liquids, nonwoven or woven fabrics out of animal or vegetable fibers are used, and synthetic fibers are now in use since several decades. In cross-flow filtration the filtrate is recuperated transversely to flow direction through a porous wall layer. In classic filtration, a filter cake is built up on filter surface and this cake reduce the flow of filtrate which will depend of the cake permeability. Often it needs such a cake structure build-up in order to obtain a clear filtrate. The...
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 Natural Energy Solution uses a proprietary, patented process called Gas Phase Reduction (”GPR”). This is a highly effective, non-incineration method that converts all organic waste within the tire. The GPR technology converts all aspects of the tires to either a methane product gas or the steel and carbon black components, which are 100% recovered for recycling. The technology operates within a closed system with no stack or chimney.
The removal of contaminants from untreated water has become a leading issue, due to environmental concerns and the threat of future water shortage. An effective purification process is necessary to eliminate organic, chemical or other debris to meet stringent regulations for drinking water, as well as for the chemical, industrial, pharmaceutical and science markets.