Wastewater from a textile facility contains a variety of dyes and organic chemicals from the manufacturing processes that are often difficult to treat. Spectral analysis is well suited for monitoring waste streams to identify problematic dyes prior to treatment. Continuous monitoring of effluent wastewater for BOD and COD helps to ensure effective treatment and quality of effluent to ensure regulatory goals are met prior to discharge.
By Real Tech Inc. based in Whitby, ONTARIO (CANADA).
The textile manufacturing industry encompasses many and diverse processes that rely heavily on the use of water, energy, chemicals, and other resources. Wet spinning, sizing, desizing, scouring, bleaching, mercerization, dyeing and printing are just a few. Monitoring and controlling the pH, TDS/Conductivity/Salt Concentration, ORP (REDOX), and Temperature of the aqueous solutions used in these processes conserves costly resources, controls quality, and reduces the amount of pollution that must be treated before discharge of effluent wastes. This can be done manually with handheld instruments or automatically with in-line monitor/controllers.
By Myron L Company based in Carlsbad, CALIFORNIA (USA).
The Textile industry is a water intensive industry. Rising water costs due to increasing water scarcity and more stringent environmental regulations have lead to textile companies globally to seek advanced, innovative and efficient textile wastewater treatment solutions to assist them to reduce their water footprint, decrease operational cost and maintain regulatory compliance. Therefore, sustainable water quality management and conservation through water reuse strategies are increasingly becoming critical to the entire operations of a textile manufacturer.
By Genesis Water Technologies, Inc. based in Maitland, FLORIDA (USA).
The kind of waste water from tanneries has a high salt content that can be diluted, but is hard to eliminate. They can also have a high organic load due to the high dirtiness, including blood, sand and manure. The water itself from these industries can vary a lot from a company to another depending on its actividad. However, a common characteristic is the high content of materials in suspension due to fibres and precipitated proteins.
By Aguambiente based in La Cistérniga, SPAIN.
Filtration for Process Water is a widely used term and has a great number of uses dependent on the operation. Filtration for process water or water purification is a process where any undesirable contaminants are removed from the water to ensure it’s suitable for its intended use. The filtrat0ion of process water does not always have to be for drinking water for humans but can also refer to water purification for the use of industrial or commercial applications in a variety of industries include pharmaceutical, chemical, Paper and Textiles, Steel, Food and Beverage, Plastics, Automotive and many more.
By Hydro-Gen Engineering Ltd based in Widnes, UNITED KINGDOM.
MICROCAT microbial formulations from Bioscience, Inc., are blends of specialized, naturally occurring microbes and other ingredients that work together to solve the problems associated with wastewater treatment from heavy process industries. By augmenting existing microbial populations, MICROCAT products naturally enhance the biodegradation of wastewater from refineries, pulp mills, chemical plants, steel mills and textile plants. When properly applied as recommended by Bioscience’s team of seasoned professionals, MICROCAT bioaugmentation formulas can result in more stable and efficient wastewater treatment plant operation and better overall effluent quality for their difficult-to-treat wastewaters.
By Bioscience, Inc. based in Allentown, PENNSYLVANIA (USA).
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