Primary and Secondary Treatment Unit of Effluent Treatment Plant: A case study

Vineet Mishra, Ashutosh Singh: Primary and Secondary Treatment Unit of Effluent Treatment Plant: A case study. In: International Journal of Engineering, Management & Technology (IJEMT), vol. 1, iss. 10, pp. 27-32, 2022, ISSN: 2583 - 4517.

Abstract

A general overview on the potentiality of membrane processes in the treatment of aqueous solutions
coming from the leather industry is reported. The wet operations of the leather cycle which can be combined with or modified by membrane processes, such as microfiltration, ultrafiltration (UF), nanofiltration (NF) and reverse osmosis, have been described on the basis of consolidated applications and experimental tests on laboratory and industrial pilot scale. Some new applications are also proposed. Most of the river basins are closing or closed to severe water shortages, brought on by the simultaneous effects of agricultural growth, industrialization and
urbanization. Performance of state-owned effluent treatment plants, for treating municipal waste water, and common effluent treatment plants, for treating effluent from small scale industries, is also not complying with prescribed standards. Thus, effluent from the treatment plants, often, not suitable for household purpose and reuse of the waste water is mostly restricted to agricultural and industrial purposes. The development of innovative technologies for treatment of wastewaters from various industries is a matter of alarming concern for us. Although many research papers have been reported on wastewater pollution control studies, but a very few research work is carried out for treatment of wastewater of steel industries, especially in reference to development of design of industrial effluent
Treatment Plants (ETP) system. Another beneficial aspect of this research work will be recycling, reuse of water and sludge from steel industry The whole technologies for treating industrial wastewater can be divided into four categories: - Chemical, Physical, Biological and mathematical approaches.

BibTeX (Download)

@article{IJEMT_DEC-04-GSV,
title = {Primary and Secondary Treatment Unit of Effluent Treatment  Plant: A case study},
author = {Vineet Mishra, Ashutosh Singh},
url = {https://ijemt.com/wp-content/uploads/2023/01/IJEMT_DEC-04-GSV.pdf, Download pdf},
issn = {2583 - 4517},
year  = {2022},
date = {2022-12-23},
journal = {International Journal of Engineering, Management \& Technology (IJEMT)},
volume = {1},
issue = {10},
pages = {27-32},
abstract = {A general overview on the potentiality of membrane processes in the treatment of aqueous solutions 
coming from the leather industry is reported. The wet operations of the leather cycle which can be combined with or modified by membrane processes, such as microfiltration, ultrafiltration (UF), nanofiltration (NF) and reverse osmosis, have been described on the basis of consolidated applications and experimental tests on laboratory and industrial pilot scale. Some new applications are also proposed. Most of the river basins are closing or closed to severe water shortages, brought on by the simultaneous effects of agricultural growth, industrialization and 
urbanization. Performance of state-owned effluent treatment plants, for treating municipal waste water, and common effluent treatment plants, for treating effluent from small scale industries, is also not complying with prescribed standards. Thus, effluent from the treatment plants, often, not suitable for household purpose and reuse of the waste water is mostly restricted to agricultural and industrial purposes. The development of innovative technologies for treatment of wastewaters from various industries is a matter of alarming concern for us. Although many research papers have been reported on wastewater pollution control studies, but a very few research work is carried out for treatment of wastewater of steel industries, especially in reference to development of design of industrial effluent 
Treatment Plants (ETP) system. Another beneficial aspect of this research work will be recycling, reuse of water and sludge from steel industry The whole technologies for treating industrial wastewater can be divided into four categories: - Chemical, Physical, Biological and mathematical approaches.},
keywords = {Volume 1 Issue 10 December 2022},
pubstate = {published},
tppubtype = {article}
}

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