|Minimum Order Quantity||1 Piece|
|Capacity (KLD)||200 KLD|
|Application Industry||dairy, Textile Industries|
|Inlet Flow Rate(m3/day)||500 m3/day|
|Treatment Technology||Mixed Bed Bio Reactor(MBBR)|
|Tank Dimensions||11.5 X 2.3 X 2.4|
|Material Of Construction||Stainless Steel|
|Water Source||Municipal Sewage|
|Deliver Type||Outside India|
|Treatment Stages||Secondary Treatment|
|I Deal In||New Only|
|Country of Origin||Made in India|
Wastewater treatment plants (WWTPs) represent an assemblage of contaminated environments and are a major contributor to the release of antimicrobials and antimicrobial resistance determinants (AMRDs). Microbial assemblages differ in their capacity to degrade pharmaceuticals, and this contributes potentially to the risk for AMRD dissemination. Contaminant-degrading microorganisms released from treatment systems may have a role in pathogen transmission as well. WWTP effluents require greater scrutiny, management, and monitoring to safeguard water resources and public health.
Effluent treatment and wastewater treatment plant are called in this way as their common name wastewater treatment plant, effluent treatment plant, etp plant, industrial effluent treatment plant, sewage treatment plant, pharmaceutical wastewater treatment plant, Wastewater Treatment Plant Effluent, wwtp plant, effluent treatment and wastewater treatment plant, Sewage and effluent treatment plant, wastewater treatment effluent plant, effluent wastewater treatment plant, effluent waste treatment plant, effluent treatment and wastewater treatment, effluent treatment plant and wastewater treatment, industrial effluent wastewater treatment, industrial wastewater effluent treatment, Domestic wastewater treatment plant, commercial wastewater treatment plant
Zero liquid discharge (ZLD) is an engineering approach to water treatment where all water is recovered and contaminants are reduced to solid waste. While many water treatment processes attempt to maximize recovery of freshwater and minimize waste, ZLD is the most demanding target since the cost and challenges of recovery increase as the wastewater gets more concentrated. Salinity, scaling compounds, and organics all increase in concentration, which adds costs associated with managing these increases. ZLD is achieved by stringing together water treatment technology that can treat wastewater as the contaminants are concentrated. Zero Liquid Discharge System, Zero Liquid Discharge Plant, zld system, zero liquid discharge plant, zld plant, zero liquid discharge water treatment system
There are a number of benefits to targeting zero liquid discharge for an industrial process or facility:
Lowered waste volumes decrease the cost associated with waste management.
Recycle water on site, lowering water acquisition costs and risk. Recycling on-site can also result in less treatment needs, versus treating to meet stringent environmental discharge standards.
Reduce trucks associated with off-site wastewater disposal, and their associated greenhouse gas impact and community road incident risk.
Improved environmental performance, and regulatory risk profile for future permitting.
Some processes may recover valuable resources, for example ammonium sulfate fertilizer or sodium chloride salt for ice melting.
Several methods of waste management are classified as zero liquid discharge, despite using different boundaries to define the point where discharge occurs. Usually, a facility or site property line that houses the industrial process.
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