1) Advanced ‘Immobilized Cell Reactor’ innovation connected to pharmaceutical industry

The wastewater released is 20 m^3/day and generally changing in its qualities. Oxygen consuming natural consortia for the most part utilized as a part of ordinary treatment units are presented to stun stack applications as very fluctuating natural burdens are connected.

Subsequently, oxygen consuming natural framework requires a supporting gadget to counterbalance the stun stack application. This reactor innovation has been turned out to be impervious to stun stack applications.

The treated wastewater from Advanced ‘Immobilized Cell Reactor’ based gushing treatment plant could be used for water system of the yields raised inside the premises. Our past involvement with wastewater treated with this reactor demonstrates that the treated wastewater underpins the development of blue green growth. This would thus build C/N proportion of soil and along these lines fruitfulness of the dirt will be expanded.

2) Advanced ‘Immobilized Cell Reactor’ innovation connected to treatment of household wastewater

Household wastewater released from local part is unpredictable in nature because of the nearness of natural, inorganic chemicals, wide range of living beings that are pathogenic and non-pathogenic in nature. Ordinary natural treatment frameworks neglect to achieve expulsion of broke up organics and microorganisms to the agreeable level.

In addition, the frameworks are not sufficiently proficient to recoup the water for reuse reason as in immobilized cell reactor.

Residential wastewater gathered from the staff quarters was screened and gone through a weight sand channel to evacuate the suspended solids. The screened local wastewater was dealt with in anaerobic reactor. The anaerobic treated wastewater was connected over the surface of the Advanced ‘Immobilized Cell Reactor’ reactor. The ‘Immobilized-Cell Reactor’ reactor has a coordinated natural and compound oxidation consolidated in a solitary reactor.

The immobilized cell bioreactor comprises of a tall section (0.6 m tallness and distance across 0.15 m) pressed with actuated carbon. The actuated carbon is immobilized with chemo autotrophs of limit 3.5 x 10^7 cells/gm. Oxygen required for the oxidation of organics in wastewater is provided as packed air at a weight 1 – 3 kg/cm^2 from the base of the reactor. The counter current development of the fluid and air streams empowers the broke down organics to experience oxidation and desorb the changed over items, with the goal that the enacted carbon keeps up its action all through the activity. The local wastewater treated through this reactor innovation has expelled BOD by 94{25df38898b190ea20c34702467acbcdbeed465576eca4d460cf727fc2037ea1a}, COD by 90{25df38898b190ea20c34702467acbcdbeed465576eca4d460cf727fc2037ea1a} and sulfide by 100{25df38898b190ea20c34702467acbcdbeed465576eca4d460cf727fc2037ea1a}.