Effluent Treatment Plant

Innovation Tech offers an effectual range of Effluent Treatment Plants for recycling of wastewater to reduce water demand. The comprehensive treatment solution works at various levels and involves various physical, chemical, biological and membrane processes. Innovation Tech also provides effluent treatment solutions for various types of industrial waste water. Customized systems to suit the wide variety of effluents and to maintain efficiency are provided to industries. These systems include physic-chemical treatment, biological treatment, tertiary treatment and membrane separation process to achieve the zero-discharge standards laid by statutory authority. We provide innovative and economical systems for waste from industries like chemicals, drugs, pharmaceutical, refineries, dairy, ready mix plants & textile etc.

PROCESS OVERVIEW FOR ETP :

  • Screening/ Grit chamber: To remove floatable matter and sand, grit, stones in raw effluent.
  • Oil & grease trap: To remove floatable oil and grease from raw effluent.
  • Primary treatment: Includes chemical treatment (coagulation, flocculation, neutralization) and solid-liquid separation for removal of suspended solids.
  • Secondary Treatment: Includes biological treatment for reduction of BOD/COD and solid-liquid separation. Biological treatment can be aerobic or anaerobic depends on quality of raw effluent. Aerobic- ASP (Activated Sludge Process), MBBR/FAB (Moving Bed Bioreactor/ Fluidized Aerated Bioreactor), SAFF (Submerged Aerated Fixed Film Bioreactor), MBR (Membrane Bioreactor) Anaerobic- UASB (Up-flow anaerobic Sludge Blanket Reactor)
  • Tertiary treatment: Sand and carbon filtration for removal of suspended solids and organic material. Ultra-filtration and Reverse Osmosis are the advanced technologies to be implemented for zero-discharge system.

EDI (Electrodeionization) Water Treatment Systems

We are a leading and well recognized names in the field of providing solutions for Electrodeionization (EDI). It’s a water treatment technology which utilizes electrodes for ionizing water molecules as well as separating dissolved ions (impurities) from water.

Some of the industry areas where this technology is preferred include:

  • Electronics
  • Pharmaceutical
  • Power generation

As a technology, EDI combines ion exchange resins and ion-selective membranes with direct current which assist in effective removal of ionized species from water. Further, EDI process helps in producing industrial process water of high purity by using less than 95% of chemical products that are used in conventional ion exchange processes. The other advantage of the system is that EDI system membranes and electricity effectively replace acid and caustic chemicals that were used in old processes for watertreatment.
Applications:
EDI as a technology is useful for applications needing constant and economical removal of water impurities without any dangerous chemicals involved. Some preferred application areas are:

Reuse of residual water in food and beverage industry Chemical production
Biotechnology Electronics
Cosmetic Laboratories
Pharmaceutical industry Boiler Feed Wate

 

Advantages:
Some of the advantages of these systems include:

  • Removing dissolved ions up to 5-17 M?-cm, TOC <20 ppb
  • No involvement of harmful chemicals for regenerating resin
  • Designed to deliver reliable, low-cost ultrapure water solutions with up to 18 MOhm-cm resistivity
  • Systems designed to effectively remove residual salts and ionizable aqueous species like silica, carbon dioxide, ammonia
  • Operating without chemicals, these systems are designed to achieve 95% water recovery
  • Reduce energy and operating expenses
  • Reduction in environmental waste
  • Stable continuous performance with lower operating costs