High Impact Factor : 4.396 icon | Submit Manuscript Online icon |

Urban Wastewater Treatment using Phytorid

Author(s):

Koranne Manas Dwarkanath , Dept. of Civil Engineering, TSSMs Padmabhushan Vasantdada Patil Institute Of Technology, Pune.; Patil Ganesh Dilip, Dept. of Civil Engineering TSSMs Padmabhushan Vasantdada Patil Institute Of Technology, Pune.; Barne Pratik Kailas, Dept. of Civil Engineering TSSMs Padmabhushan Vasantdada Patil Institute Of Technology, Pune.; Pasalkar Aniket Sunil, Dept. of Civil Engineering TSSMs Padmabhushan Vasantdada Patil Institute Of Technology, Pune.; Narayankar Akshay Dilip, Dept. of Civil Engineering TSSMs Padmabhushan Vasantdada Patil Institute Of Technology, Pune.

Keywords:

Phytorid, Wastewater Treatment

Abstract

The process of design, construction and operation of sewage treatment plant (STP) requires multi-disciplinary approach. Many conventional methods are available for design of sewage treatment plants. The process involved in these treatments is either aerobic, anaerobic or combination requiring number of mechanical and electrical items thereby requiring large amount of energy. The ever growing need of energy makes the design, operation and maintenance of STP a challenging task. The conventional method of sewage treatment can be made efficient by advanced technologies and intelligent supervision but this in turn increases the total cost. However, Phytorid technology developed by National Environmental Engineering Research Institute treats the sewage by plant. It is found from the study carried out on nine STPs at various locations in Pune and Mumbai in Maharashtra (India) that the sewage treatment by Phytorid technology uses only 20% of the energy as compared to conventional sewage treatment plants and also it is very effective in comparative many treatment methods. It is thus concluded that Phytorid technology is the future for sewage treatment.

Other Details

Paper ID: IJSRDV6I30641
Published in: Volume : 6, Issue : 3
Publication Date: 01/06/2018
Page(s): 1100-1102

Article Preview

Download Article