Dear Industry Colleagues, Greetings from Water Today!I am working on the January 2018 issue and would like to invite you to contribute technical articles, case studies, research papers on “ZLD - An Ideal Solution For Brine Treatment & Wastewater Discharge” and facilitate a comprehensive perspective on the same. Please find below the theme note and do let us know if you could send us your article.Theme note - ZLD - An Ideal Solution For Brine Treatment & Wastewater Discharge – January 2018Globally, two million tons of sewage, industrial and agricultural waste is discharged into the world’s waterways, and that is not counting the unregulated or illegal discharge of contaminated water. This wastewater contaminates freshwater and coastal ecosystems, threatening food security, access to safe drinking and bathing water and being a major health and environmental management challenge. Managing wastewater is intrinsically linked to management of the entire water chain. It is essential that wastewater management is considered as part of integrated, ecosystem-based management that operates across sectors and borders, freshwater and marine. Efficient waste management and disposal is the basis of sustainable development. With increasingly stringent regulations on sea, river, and deep well injection, the implementation of advanced water treatments is critical. Zero liquid discharge (ZLD) is an ideal solution for brine treatment and wastewater discharge – a complete closed loop cycle where discharge is eliminated and environmental regulations met. However, brine discharge is one of the largest sources of wastewater from industrial processes. Because of the environmental impacts arising from improper treatment of brine discharge and more rigorous regulations of pollution control, industries have started to focus on waste minimization and improving the process of wastewater treatment. Thus, determining the potential applicability of ZLD for water treatment is crucial. Membrane-based technologies are a potentially attractive strategy that can be used. Integrating a series of membrane processes will be a viable approach to achieving ZLD for industrial use. The ZLD technology converts a high volume of liquid waste to distilled water for reuse, and solid salts that can be land filled or used as raw material for the chemical industry. It is applicable for industrial plant effluent treatment, wastewater reclamation and industrial recycling applications. Moreover, ZLD system is advanced wastewater treatment technology to recycle, recovery and reuse of treated wastewater. The industries requiring to achieving ZLD system for some better solutions for reject and salt management are achieved. This will better facilities to reduce pollution load and reducing in quantity of effluent disposed. Our January issue will be focusing on the challenging problems encountered with ZLD approaches as well as potential solutions and innovative technologies for improving their performance. We would like to invite you to share your experiences in the form of articles, technical papers and case studies with our readers. Please inform us of your intent to contribute at the earliest, so that we can evaluate the articles for the publication. TopicZLD - An Ideal Solution For Brine Treatment & Wastewater DischargeLength2000-4000 wordsInclusionsRelated graphs, tables and images (high-resolution) along with captions + short bio of the author/s (including author’s present designation, educational qualification/s and years of experience in the field)Article DeadlineDecember 10, 2017You can also send in details about new product launches and press releases for inclusion in the magazine to editor@watertoday.org">editor@watertoday.org. Best regards Hema editor@watertoday.org">editor@watertoday.org.
Taxonomy
- Water
- Treatment
- Solid Waste Treatment
- Oxidation
- Anaerobic Digestion
- Bioreactor
- Carbon Filtering
- Combined Sewer
- Composting Toilet
- Electrocoagulation
- Electrodeionization
- Electrolosis
- Electro-Fenton Process
- Flocculation
- Ion Exchange
- Sand Filter
- Effluent
- Ecological Sanitation
- Ozonation
- Ultrafiltration
- Reclaimed Wastewater
- Treatment Methods
- Chemical Treatment
- Water Softener
- Photocatalysis
- Decontamination
- Aeration
- Biological Treatment
- Coagulants
- Sewage Treatment
- Wastewater Phycoremediation
- Sludge Separation
- Liquid Waste Treatment
- Raw Sewage Recycling
- Pharmaceuticals Waste
- Heavy Metal Removal
- COD Removal
- Chlorine Dioxide
- Produced Water Treatment
- Industrial Wastewater Treatment
- Dissolved Air Flotation
- Decentralized Wastewater
- Sludge Treatment
- RO Systems
- Drinking Water Treatment
- Ultra Pure Water
- Cooling Boiler & Wastewater
- Process
- Mixing Technology
- Source Separation
- Membrane Bioreactor Systems
- Micropollutants
- Modelling
- Liquid Waste Management
- Household Water Treatment
- Water Reuse & Recycling
- Water Treatment & Control
- Urban Drainage
- Nutrients Recovery
- Industrial Water Treatment
- UV Disinfection
- Sludge Management
- Sludge Drying
- Waste Water Treatments
- Oil Water Separation
- Water Distillation
- Pool Water Treatment
- Water Reclamation
- Polluted Water Oxidation
- Purification
- Technology
- Research
- Desalination
- Water Supply
- Operations Auditor
- ultrafine bubbles
- Nutrient Reduction and Removal
- Total Suspended Solids
- UF membranes/cassettes for waste water treatment MBR
- Sequencing Batch Reactor (SBR)
- Disinfection
- water packaged plants
- Total Dissolved Solids (TDS)