Drinking water can be produced from any natural sources like groundwater, lakes and rivers (surface waters) or seawater. Drinking water standards are set by the World Health organisation or by the European Union. Drinking water must be free of suspended solids, microorganisms and toxic chemicals. Mineral concentration recommendation vary from country to country but most of the minerals have a maximum concentration recommended to ensure safe, equilibrated and pleasant water to drink.
There are many different drinking water applications that are appropriate for AdEdge Technologies’ solutions. Small community water providers, both private and public, have found the AdEdge modular or packaged units to be the correct answer to a variety of contaminant issues. Our systems also provide safe drinking water for dairy farms and other agricultural applications. Individual residences use POU (point-of-use) and POE (point-of-entry) systems to ensure the quality of their water.
Kurita specifically developed product ranges for drinking water treatment, in order to avoid any kind of problem that might occur with the preparation, transport or use of drinking water. Our technologies can be used for all kinds of conditions, from municipal water suppliers to private buildings (e.g. hotels, universities, hospitals and private homes).
Water is essential for life. It is part of the environment, being used in industrial processes and available as tap water. To secure the safety of water that is daily available, the amount of necessary microbiology tests to comply with regulatory requirements are increasing and are heavily relying on quick and accurate answers to confirm the identities of a broad selection of important micro-organisms.
Superior Water Quality. Minimal Operating Costs. No Chemical Additives.
The water treatment and water distribution up to the delivery point in the house is the responsibility of the water supplier. The owner of the real estate is responsible for sustaining the drinking water quality within the premise.
REDO offers in the areas of drinking water supply solutions for the water supplier and solutions for the operators of commercial real estate. The main advantage of water disinfection from REDO: The REDO disinfectan...
Bromate forms during the ozonization of drinking water. Several international standards stipulate detection limits and test methods. Conductivity detection with chemical suppression allows the determination of bromate in the lower μg/L range. In the ng/L range, bromate can be detected by IC/MS coupling or post-column derivatization with potassium iodide and subsequent UV detection.
Superior Tank Co., Inc. manufacturers bolted and welded steel storage tanks for potable water applications. Superior Tank Co., Inc. builds water storage tanks to meet AWWA and NSF 61 Standards. Our bolted steel water storage tanks are manufactured to be installed in 1/3 the time as other storage tanks, are easy to maintain, service and repair.
Drinking Bladder Tanks use TPU polyether material with food grade. Easy to install on the remote area and emergency rescue. Of course, each family can be used for storage dairy water use. etc.
The drinking water storage tanks provide a flexible design, ca
Drinking water plant AZUD DW to provide the required standard of drinking water for the municipal sector. AZUD DW plants are compact, modular, with solid and easy-handling equipment, fully automated operation and cleaning.
Carus permanganates have been used in private and public drinking water applications for more than 40 years. Municipal drinking water plants use CAIROX® and AQUOX® potassium permanganates, and CARUSOL® liquid permanganate in both ground water (well) and surface water for Pretreatment, Pre-oxidation and Organics Removal. Today, municipal water providers face increased challenges as more stringent regulations are enacted and public awareness regarding water quality becomes heightened.
By controlling algae, cyanobacteria and fouling LG Sonic can efficiently reduce taste and odor problems in a treatment plant. The performance of a drinking water treatment plant is consistent with the amount ol contamination in the water. Growth of algae and other fouling in and before a treatment plant can cause various problems within the process. In general, these issues are related with taste or odor of the water. Growth of algae, cyanobacteria and bacteria within the basins of the plant itself, increase the...
Drinking water supply and distribution systems around the world (a critical and interdependent component of a nation’s infrastructure) are vulnerable to both intentional and accidental contamination. Unusual water quality may serve as a warning of potential contamination. The available physico-chemical sensors utilize general water quality parameters, such as free chlorine, oxidation reduction potential (ORP), total organic carbon (TOC), turbidity, pH, dissolved oxygen, chloride, ammonia, nitrate to detect...
Treating algae in drinking water with ultrasound reduces taste and odour problems without harming the ecosystem. Prevent the occurrence of toxic blue-green algae. Reduce chemical dosage. Products can be NSF/ANSI Standard certified.
Either small scale remote drinking water plants or large scale municipal drinking water facilities will benefit from DyVaR technology. DyVaR is applicable for one-step treatment of briny liquids to produce the highest quality of drinking water. In large scale applications with several treatment steps, DyVaR is well suited to treat IX regenerate streams or the concentration of brines streams originating from conventional water treatment systems.
As one of the world`s most precious natural resources, the reuse of water is becoming increasingly important. MIOX is both the most cost-effective solution and the preferred technology for disinfection and oxidation of wastewater for reuse or reintroduction into the environment. MIOX`s hypochlorite generators offer a safer, technologically superior solution to wastewater treatment, virtually eliminating many of the negative problems associated with traditional chlorine disinfection. Safer, economical and significan...
With atg UV systems treating in excess of 2500 m3/hr daily, Ultraviolet disinfection is no longer an ‘emerging` technology. A number of Water Treatment Works across the world are now investing heavily in Ultraviolet technology as the threat of chlorine resistant parasites, such as Cryptosporidium and Giardia, continue to pose a serious risk to water companies and their customers. To this end, in the UK, the DWI have issued their guidelines for UV operation and system selection to the UK water industry. A...