Your search keyword '"Hashim, Sarfraz"' showing total 2 results

1. Integrated Evaluation of Urban Water Bodies for Pollution Abatement Based on Fuzzy Multicriteria Decision Approach.

Author

Hashim S, Yuebo X, Saifullah M, Nabi Jan R, and Muhetaer A

Subjects

Ammonia analysis, Biological Oxygen Demand Analysis, China, Decision Making, Decision Support Techniques, Fresh Water analysis, Fuzzy Logic, Nitrogen analysis, Oxygen chemistry, Phosphorus analysis, Temperature, Urban Population, Water Pollutants, Chemical analysis, Water Quality, Ecology methods, Environmental Monitoring methods, Rivers, Water Pollution analysis

Abstract

Today's ecology is erected with miscellaneous framework. However, numerous sources deteriorate it, such as urban rivers that directly cause the environmental pollution. For chemical pollution abatement from urban water bodies, many techniques were introduced to rehabilitate the water quality of these water bodies. In this research, Bacterial Technology (BT) was applied to urban rivers escalating the necessity to control the water pollution in different places (Xuxi River (XXU); Gankeng River (GKS); Xia Zhang River (XZY); Fenghu and Song Yang Rivers (FSR); Jiu Haogang River (JHH)) in China. For data analysis, the physiochemical parameters such as temperature, chemical oxygen demand (COD), dissolved oxygen (DO), total phosphorus (TP), and ammonia nitrogen (NH3N) were determined before and after the treatment. Multicriteria Decision Making (MCDM) method was used for relative significance of different water quality on each station, based on fuzzy analytical hierarchy process (FAHP). The overall results revealed that the pollution is exceeding at "JHH" due to the limit of "COD" as critical water quality parameter and after treatment, an abrupt recovery of the rivers compared with the average improved efficiency of nutrients was 79%, 74%, 68%, and 70% of COD, DO, TP, and NH3N, respectively. The color of the river's water changed to its original form and aquatic living organism appeared with clear effluents from them.

Published

2015

2. Vulnerability assessment and application of bacterial technology on urban rivers for pollution eradication.

Author

Hashim S, Yuebo X, Ahmad F, Arslan C, and Saifullah M

Subjects

Biodegradation, Environmental, China, Cities, Computer Simulation, Models, Biological, Models, Statistical, Risk Assessment methods, Water Purification statistics & numerical data, Bacterial Physiological Phenomena, Bioreactors microbiology, Urban Population statistics & numerical data, Water Pollutants, Chemical isolation & purification, Water Pollutants, Chemical metabolism, Water Purification methods

Abstract

To protect against the environmental pollution, the present research was undertaken to enumerate the Bacterial Technologies (BTs) on the restoration of polluted urban rivers, that is, Fenghu-Song Yang River (FSR) and Xuxi River (XXR). Experimental research accounted for the physiochemical parameters (pH; temperature; dissolved oxygen (DO); chemical oxygen demand (COD); total phosphorus (TP); total nitrogen (TN); and ammonia nitrogen (NH3N)) before and after the BT operation. The results declared that the BT is efficient to restore the polluted rivers up to reliable condition. These results were analyzed by using multivariate statistical techniques (principal component analysis (PCA) and cluster analysis (CA)). These techniques interpreted the complex data sets and expressed the point source information about the water quality of these rivers at SA5, SA6, and SB3 under highly polluted regions. For better understanding, water quality index (WQI) was applied to compute the single numeric value. WQI results are evidence of the above results which prove the water quality of both rivers faced under outrageous condition (below 50 WQI scores) before the BT treatment, but, after the treatment, the rivers were restored from fair to good level (above 50 WQI scores) and overall output of these scores was quite similar to detect the point source of pollution. These results described an abrupt recovery of the urban rivers up to reliable condition for aquatic organism and clear effluents from the rivers.

Published

2015