Azimah Ismail scite author profile

a b s t r a c tRiver plan change is one of the river geomorphology change process. This study focuses on the processes of the river plan change using geographic information system (GIS), remote sensing, and water quality analysis using water quality index (WQI) parameters. Multiple linear regression (MLR) method was used to observe the relationship between river plan change and WQI. Spatial model method was applied along the mainstream of Terengganu River Basin, using GIS to further justify the impact of river plan change on water quality status. The results obtained shows that the Terengganu River Basin has been going through certain river plan changes due to increase and decrease of the river plan criteria. Based on WQI analysis, the classification of water quality is under class III. Based on MLR, there are strong relationships between dissolved oxygen and river plan change which has value of R 2 0.995, total suspended solids (TSS) with R 2 0.764, and WQI with R 2 0.928 during wet season, whereas during dry season, TSS and WQI showed the strong linear relationship with R 2 of 0.997 and 0.985, respectively. This study will appropriately act as an aid of the local enforcement to determine the problems of the river management.

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Improving oil classification quality from oil spill fingerprint beyond six sigma approach

Juahir

Ismail

Mohamed

et al. 2017

Marine Pollution Bulletin

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The influential of physico-chemical parameters on the distributions of oligochateas (<i>Limnodrilus</i> sp.) at the polluted downstream of the tropical Langat River, Peninsular Malaysia

Yap

Rahim²,

Azrina³

et al. 2006

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Water corrosivity of polluted reservoir and hydropower sustainability

Sunardi

Ariyani

Agustian³

et al. 2020

Sci Rep

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Reservoirs play a strategic role in the context of sustainable energy supply. Unfortunately, the majority of the reservoirs are facing water-quality degradation due to complex pollutants originating from activities both in the catchment and inside the reservoir. This research was aimed at assessing the extent of the water degradation, in terms of corrosivity level, and at examining its impacts on hydropower capacity and operation. Water quality data (total dissolved solids, pH, calcium, bicarbonate, and temperature) were obtained from 20 sampling stations in the Cirata Reservoir from 2007 to 2016. The results show that the river water is already corrosive (Langelier Saturation Index, LSI = − 0.21 to − 1.08), and, the corrosiveness becoming greater when entering the reservoir (LSI = − 0.52 to − 1.49). The water corrosivity has caused damage to the hydro-mechanical equipment and lowering production capacity. The external environment of the catchment hosts complex human activities, such as agriculture, land conversion, urban and industrial discharge, which have all played a major role in the water corrosiveness. Meanwhile, the internal environment, such as floating net cage aquaculture, has intensified the problem. As the water corrosiveness has increased, the maintenance of the hydro-mechanical facilities has also increased. Strategies must be applied as current conditions are certainly a threat to the sustainability of the hydropower operation and, hence, the energy supply.

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Azimah Ismail

Spatial assessment and source identification of heavy metals pollution in surface water using several chemometric techniques

Evolution of river geomorphology to water quality impact using remote sensing and GIS technique

Improving oil classification quality from oil spill fingerprint beyond six sigma approach

The influential of physico-chemical parameters on the distributions of oligochateas (<i>Limnodrilus</i> sp.) at the polluted downstream of the tropical Langat River, Peninsular Malaysia

Water corrosivity of polluted reservoir and hydropower sustainability

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