Biodegradation of Domestic Waste Water using Fresh Water Thermophilic Fungi Isolated from Mayanur Dam, Tamil Nadu, India

Water is the basis of natural resources and strategic economic resources.Deteriorated water environment of streams in Shenzhen city could have a great impact on ecological safety, people's health,and economic development.Based on the data of field observation and Remote sensing (RS) image,integrated analysis of the water degradation causes,and the changes of biochemical oxygen demand in five days(BOD5）concentration by mathematical model were carried out,which is on basis of percentage of waste water disposal,fresh water transformation,and harbor excavation, respectively.The results show that degradation causes of water quality were resulted from waste water discharge, harbor construction,and ecological environment damage, which could lead to slowly water exchange. Accordingly,the pollution can be easily to store in the bay,which result in water quality changes.The most important improved countermeasure is the control of waste water, which could be had a great effectiveness to decrease pollution.In addition, fresh water must be supplied after polluted water was cut off,which can be better improvement for water quality.This would be extreme improvement for hydrological dynamics due to 15m harbor excavation,which can significantly reduce BOD5 concentration.The innovation points of this paper is to mathematical model,which is based on the basis of qualitative analysis.

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Biological Aspects of Water Management

Water Science & Technology ◽

10.2166/wst.1989.0056 ◽

1989 ◽

Vol 21 (2) ◽

pp. 237-240

Author(s):

L. G. Cook ◽

K. M. Harrower ◽

A. P. Mackey

Keyword(s):

Waste Water ◽

Water Management ◽

Environmental Quality ◽

Water Bodies ◽

Recreational Fisheries ◽

Domestic Waste ◽

Biological Aspects ◽

Water Treatments ◽

The Impact ◽

Microbiological Aspects

This paper firstly reviews the microbiological aspects of the accumulation of xenobiotic and non-xenobiotic substances from industrial and domestic waste water treatments, with particular reference to hydrocarbons, pesticides and inorganic plant nutrients. The paper goes on to argue that if water bodies are to be used to establish recreational fisheries as well as for water supply and effluent disposal, then the management aim may need to be one of controlled eutrophy. Ramifications of this proposal are considered. The biological aspects of the impact of other recreational and amenity uses of water bodies on water and environmental quality is briefly described. The paper concludes by discussing the training required by potential water managers.

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Impacts of Textile Waste Water on Fingerlings of Fresh Water Reservoir

Asian Journal of Chemistry ◽

10.14233/ajchem.2013.15534 ◽

2013 ◽

Vol 25 (16) ◽

pp. 9341-9344

Author(s):

Rafia Azmat ◽

Foozia Bibi

Keyword(s):

Waste Water ◽

Fresh Water ◽

Water Reservoir ◽

Textile Waste ◽

Textile Waste Water

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High Performance and N & P-Removable On-Site Domestic Waste Water Treatment System by Multi-Soil-Layering Method

Water Science & Technology ◽

10.2166/wst.1993.0010 ◽

1993 ◽

Vol 27 (1) ◽

pp. 31-40 ◽

Cited By ~ 54

Author(s):

T. Wakatsuki ◽

H. Esumi ◽

S. Omura

Keyword(s):

Waste Water ◽

Water Treatment ◽

High Performance ◽

Waste Water Treatment ◽

Treatment System ◽

Septic Tank ◽

Horizontal Distance ◽

Domestic Waste ◽

Water Treatment System ◽

Soil Layering

Multi-Soil-Layering (MSL) method was applied to make appropriate, but high performance and N & P-removable, on-site domestic waste water treatment system. The MSL soil unit is composed from soil layer mixed with 10∼25% of metal iron and pelletized jute. The MSL units were piled in a brick pattern at 5cm vertical and 10cm horizontal distance, which were surrounded by layers of Zeolite. Air can be supplied through porous pipes installed at adequate depths of the MSL system. The systems were tested using model houses. The waste waters, which were pretreated by septic tank to the level of SS 29-75, BOD 42-116, COD 32-56, T-N 29-86, and T-P 6-11 mg−l−1 respectively, could be treated at the rate of 100-850 1·m−2·d−1 without significant clogging. The mean concentrations of treated waters were SS 15, BOD 8.7, COD 11, T-N 6.8, and T-P 0.86 mg·1−1 respectively. Zeolite layers and brick pattern prevent clogging. Metal iron and jute pellets were effective to remove Phosphate and Nitrate. Intensive aeration assists decomposition of BOD, COD, and SS as well as nitrification, but decreases denitrif ication and phosphate fixation. The degree of purification could be controlled by setting adequate aeration.

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Calculation of methane gas emissions (CH4) from domestic waste water in Nhue–Day River basin

Vietnam Journal of Hydrometeorology ◽

10.36335/vnjhm.2021(7).9-19 ◽

2021 ◽

Vol 7 (1) ◽

pp. 9-19

Author(s):

Cai Anh Tu ◽

Nguyen Thị Kim Anh ◽

Le Van Quy ◽

Pham Thi Quynh

Keyword(s):

Waste Water ◽

River Basin ◽

Domestic Waste ◽

Gas Emissions ◽

Methane Gas

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An laboratory and field study on the disposal fo domestic waste water by means of soil permeation.

Nippon Eiseigaku Zasshi (Japanese Journal of Hygiene) ◽

10.1265/jjh.43.1075 ◽

1989 ◽

Vol 43 (6) ◽

pp. 1075-1091

Author(s):

Gentaro Yamaura

Keyword(s):

Waste Water ◽

Field Study ◽

Domestic Waste

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D 1345 - 59 Standard Method of Test for Evaluating Acute Toxicity of Industrial Waste Water to Fresh-Water Fishes

Manual on Industrial Water and Industrial Waste Water ◽

10.1520/stp44276s ◽

2009 ◽

pp. 486-486-13

Author(s):

Keyword(s):

Waste Water ◽

Acute Toxicity ◽

Fresh Water ◽

Standard Method ◽

Industrial Waste ◽

Industrial Waste Water

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Advanced Nanomaterials for Water Engineering and Treatment

Advanced Nanomaterials for Water Engineering, Treatment, and Hydraulics - Advances in Environmental Engineering and Green Technologies ◽

10.4018/978-1-5225-2136-5.ch005 ◽

2017 ◽

pp. 84-126

Author(s):

Rabia Nazir

Keyword(s):

Waste Water ◽

Water Treatment ◽

Metal Oxides ◽

Fresh Water ◽

Pollution Prevention ◽

Cost Effective ◽

Mixed Metal Oxides ◽

Small Particles ◽

Technological Developments ◽

Treatment Technologies

Loading of water with multifarious pollutants has dwindled the availability of quality fresh water and put questions on reliability and efficacy of conventional water treatment technologies. Also the quest for developing robust and cost-effective methods with minimum impact on environment had driven the focus of researchers and technologists on new technological developments. Nanotechnology – better referred as Aqua-nanotechnology in this regard provides scientists a new dimension to deal this big problem with small particles having application in 1) water treatment, 2) remediation, and 3) pollution prevention. This chapter will focus on fabrication and use of advance nanomaterials categorized as nanoadsorbents and nanoatalysts for these three main areas. A range of materials exploited in this regard are single and mixed metal oxides and their composites with polymer, clay, carbon based materials etc. while keeping focus on technological developments taken place over the period in regard with treating water and waste water.

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