Effluent
is liquid waste material that comes out of factories or sewage works. Effluent
Treatment Plants or ETPs are used by leading companies in the pharmaceutical
and chemical industry to purify water and remove any toxic and no
effluent-treatment-plant toxic materials or chemicals from it. These plants are
used by all companies for environment protection. An E.T.P.plant is a plant
where the treatment of industrial effluents and waste waters is done. Effluent
treatment is basically waste treatment.
ETP Plants in Pharmaceutical Industry
The ETP plants are used widely in
pharmaceutical industry to remove the effluents from the bulk drugs. During the
manufacturing process of drugs, varied effluents and contaminants are produced.
The effluent treatment plants are used in the removal of high amount of
organics, debris, dirt, grit, pollution, toxic, non toxic materials, polymers
etc. from drugs and other medicated stuff. The ETP plants use evaporation and
drying methods, and other auxiliary techniques such as centrifuging,
filtration, incineration for chemical processing and effluent treatment.
Importance of ETP Plants
The treatment of effluents in
pharmaceutical industry is essential to prevent pollution of the receiving
water. The effluent water treatment plants are installed to reduce the
possibility of pollution; biodegradable organics If left unsolved, the levels
of contamination in the process of purification could damage bacterial
treatment beds and lead to pollution of controlled waters.
Treatment of Pharmaceutical industrial
wastewater
The
different types of contamination of waste water require a variety of strategies
to remove the contamination. There are
some Physical, Chemical and Biological Wastewater Treatment Methods
Physical Chemical Biological
Sedimentation
(Clarification) Chlorination
Trickling Filtration
Screening Ozonation Oxidation Ponds
Aeration Neutralization Aerobic Digestion
Filtration Coagulation Anaerobic Digestion
Flotation and Skimming Adsorption Lagoons
Degasification Ion Exchange Septic Tanks
Screening Ozonation Oxidation Ponds
Aeration Neutralization Aerobic Digestion
Filtration Coagulation Anaerobic Digestion
Flotation and Skimming Adsorption Lagoons
Degasification Ion Exchange Septic Tanks
While the devices used in wastewater
treatment are numerous and will probably combine physical, chemical and
biological methods, they may all be generally grouped under six methods:
v Preliminary
Treatment
v Primary
Treatment
v Secondary
Treatment
v Disinfection
v Sludge
Treatment
v Tertiary
Treatment
Fig.
Effluent Treatment Plant
Application
of ETP Plants
Pharmaceuticals
Chemicals
Water waste management systems
Leather industry and tanneries
References
Ø
European Environment Agency.
Copenhagen, Denmark
Ø
Tannery Wastewater Treatment by the
Oxygen Activated Sludge Process Mamoru Kashiwaya and Kameo Yoshimoto Journal
(Water Pollution Control Federation), Vol. 52, No. 5 (May, 1980), pp. 999-1007
(article consists of 9 pages) Published by: Water Environment Federation
Ø
Tchobanoglous, G., Burton, F.L., and
Stensel, H.D. (2003). Wastewater Engineering (Treatment Disposal Reuse) /
Metcalf & Eddy, Inc. (4th Ed.). McGraw-Hill Book Company. ISBN 0-07-041878-0.
Ø
Beychok, Milton R. (1967). Aqueous
Wastes from Petroleum and Petrochemical Plants (1st Ed.). John Wiley & Sons. LCCN 67019834.
Ø
American Petroleum Institute (API) (February 1990). Management of Water Discharges: Design
and Operations of Oil-Water Separators (1st Ed.).