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1860797377077575680
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INTELEK Repository
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Online Access
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https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
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2015-11-05 10:27:31
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Restricted Document
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12471
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UniSZA
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1. Schleich, J. and Hillenbrand, T. (2009). Determinants of residential water demand in Germany. Ecological Economics 68: 1756–1769. 2. Liu, K. K., Li, C. H., Yang, X. L. Hu, J. and Xia, X. H. (2012). Water Resources Supply-Consumption (Demand) Balance Analysesin the Yellow River Basin in 2009. Environmental Sciences 13(1): 1956 – 1965. 3. Paredes, J., Andreu, J. and Solera, A. (2010). A decision support system for water quality issues in the Manzanares River (Madrid, Spain). The Science of the total environment 408(12): 2576–89. 4. Ntengwe, F. W. (2006). Pollutant loads and water quality in streams of heavily populated and industrialised towns. Physics and Chemistry of the Earth, Parts A/B/C 31(15-16): 832–839. 5. Din, H. M., Toriman, M. E., and Mokhtar, M. (2012). Loading Concentrations of Pollutant in Alur Ilmu at UKM Bangi Campus: Event Mean Concentration (EMC) Approach. Malaysian Journal of Analytical Sciences 16(3): 353–365. 6. Canals, A. and Cuesta, A. (2002). New ultrasound assisted chemical oxygen demand determination. Ultrasonics Sonochemistry 9(3): 142–149. 7. Yao, H., Wu, B., Qu, H. and Cheng, Y. (2009). A high throughput chemiluminescence method for determination of chemical oxygen demand in waters. Analytical Chimica Acta 633(1): 76–80. 8. Bilotta, G. S. and Brazier, R. E. (2008). Understanding the influence of suspended solids on water quality and aquatic biota. Water Research 42(12): 2849–2861. 9. Yahyapour, S., Golshan, A. and Halim, A. (2013). Removal of total suspended solids and turbidity within experimental vegetated channel : optimization through response surface methodology. Journal of HydroEnvironment Research 4(3): 1–10. 10. Xia, X., Yang, Z., Huang, G., Zhang, X., Yu, H. and Rong, X. (2004). Nitrification in natural waters with high suspended-solid content––A study for the Yellow River. Chemosphere 57(8): 1017–1029. 11. Domini, C., Vidal, L., Cravotto, G. and Canals, A. (2009). A simultaneous, direct microwave/ultrasoundassisted digestion procedure for the determination of total Kjeldahl nitrogen. Ultrasonics Sonochemistry 16(4): 564–569. 12. Jonnalagadda, S. and Mhere, G. (2001). Water quality of the Odzi River in the eastern highlands of Zimbabwe. Water Research 35(10): 2371–2376. 13. Rossi, L., Chevre, N., Fankhauser, R. and Margot, J. (2012). Sediment contamination assessment in urban areas based on total suspended solids. Water Research 47(1): 339–350. 14. Mokhtar, M., Hoe, C. F., Leng, C. W., Yong, O. Y. and Heong, T. B. (2005). Studies of water quality ‘Alur Ilmu’ Campus UKM, Bangi: Towards an integrated approach to water resources management. Malaysian Journal of Analytical Sciences, 9(3): 388–395.
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6774-01-FH02-ESERI-15-04083.jpg
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norman
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oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12471
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12471 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12471 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 35 35 1419 776 1419x776 2015-11-05 10:27:31 6774-01-FH02-ESERI-15-04083.jpg UniSZA Private Access The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM] Malaysian Journal of Analytical Sciences The Alur Ilmu UKM is a large storm water channel that serves to store water and flows into Langat River. The primary objective of this study are to identify the water quality and pollution levels, the sources of which may cause pollution and to measures the control pollution that occurs in the area. Water sampling was carried out in order to determine the quality of water. The sampling water was taken during no-rain and after rainfall. The area includes UKM Forest Reserve (Hutan Pendidikan Alam – HPA), Student Cafeteria (Teres Eko Niaga), Restaurant of Fakulti Sains dan Teknologi (FST), Student Centre (Pusanika), Fakulti Pendidikan Islam (FPI) and UKM Mosque. Eight water quality parameters i.e consisting of Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), pH, Turbidity, Total Suspended Solids (TSS), Total Kjeldahl Nitrogen (TKN), Temperature, Oil and Grease (O&G) were measured. The results shows that the water quality are in a class III and IV according to Water quality Index (WQI) and the water meet the standard B that set out in the Regulations of the Environmental Quality (Sewage and Effluent). 19 5 Malaysian Society of Analytical Sciences Malaysian Society of Analytical Sciences 1137-1146 1. Schleich, J. and Hillenbrand, T. (2009). Determinants of residential water demand in Germany. Ecological Economics 68: 1756–1769. 2. Liu, K. K., Li, C. H., Yang, X. L. Hu, J. and Xia, X. H. (2012). Water Resources Supply-Consumption (Demand) Balance Analysesin the Yellow River Basin in 2009. Environmental Sciences 13(1): 1956 – 1965. 3. Paredes, J., Andreu, J. and Solera, A. (2010). A decision support system for water quality issues in the Manzanares River (Madrid, Spain). The Science of the total environment 408(12): 2576–89. 4. Ntengwe, F. W. (2006). Pollutant loads and water quality in streams of heavily populated and industrialised towns. Physics and Chemistry of the Earth, Parts A/B/C 31(15-16): 832–839. 5. Din, H. M., Toriman, M. E., and Mokhtar, M. (2012). Loading Concentrations of Pollutant in Alur Ilmu at UKM Bangi Campus: Event Mean Concentration (EMC) Approach. Malaysian Journal of Analytical Sciences 16(3): 353–365. 6. Canals, A. and Cuesta, A. (2002). New ultrasound assisted chemical oxygen demand determination. Ultrasonics Sonochemistry 9(3): 142–149. 7. Yao, H., Wu, B., Qu, H. and Cheng, Y. (2009). A high throughput chemiluminescence method for determination of chemical oxygen demand in waters. Analytical Chimica Acta 633(1): 76–80. 8. Bilotta, G. S. and Brazier, R. E. (2008). Understanding the influence of suspended solids on water quality and aquatic biota. Water Research 42(12): 2849–2861. 9. Yahyapour, S., Golshan, A. and Halim, A. (2013). Removal of total suspended solids and turbidity within experimental vegetated channel : optimization through response surface methodology. Journal of HydroEnvironment Research 4(3): 1–10. 10. Xia, X., Yang, Z., Huang, G., Zhang, X., Yu, H. and Rong, X. (2004). Nitrification in natural waters with high suspended-solid content––A study for the Yellow River. Chemosphere 57(8): 1017–1029. 11. Domini, C., Vidal, L., Cravotto, G. and Canals, A. (2009). A simultaneous, direct microwave/ultrasoundassisted digestion procedure for the determination of total Kjeldahl nitrogen. Ultrasonics Sonochemistry 16(4): 564–569. 12. Jonnalagadda, S. and Mhere, G. (2001). Water quality of the Odzi River in the eastern highlands of Zimbabwe. Water Research 35(10): 2371–2376. 13. Rossi, L., Chevre, N., Fankhauser, R. and Margot, J. (2012). Sediment contamination assessment in urban areas based on total suspended solids. Water Research 47(1): 339–350. 14. Mokhtar, M., Hoe, C. F., Leng, C. W., Yong, O. Y. and Heong, T. B. (2005). Studies of water quality ‘Alur Ilmu’ Campus UKM, Bangi: Towards an integrated approach to water resources management. Malaysian Journal of Analytical Sciences, 9(3): 388–395.
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| spellingShingle |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
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| summary |
The Alur Ilmu UKM is a large storm water channel that serves to store water and flows into Langat River. The primary objective of this study are to identify the water quality and pollution levels, the sources of which may cause pollution and to measures the control pollution that occurs in the area. Water sampling was carried out in order to determine the quality of water. The sampling water was taken during no-rain and after rainfall. The area includes UKM Forest Reserve (Hutan Pendidikan Alam – HPA), Student Cafeteria (Teres Eko Niaga), Restaurant of Fakulti Sains dan Teknologi (FST), Student Centre (Pusanika), Fakulti Pendidikan Islam (FPI) and UKM Mosque. Eight water quality parameters i.e consisting of Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), pH, Turbidity, Total Suspended Solids (TSS), Total Kjeldahl Nitrogen (TKN), Temperature, Oil and Grease (O&G) were measured. The results shows that the water quality are in a class III and IV according to Water quality Index (WQI) and the water meet the standard B that set out in the Regulations of the Environmental Quality (Sewage and Effluent).
|
| title |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
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| title_full |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
|
| title_fullStr |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
|
| title_full_unstemmed |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
|
| title_short |
The water quality study and sources of pollution in Alur Ilmu, UKM [Kajian kualiti air dan punca-punca pencemaran di Alur Ilmu, UKM]
|
| title_sort |
water quality study and sources of pollution in alur ilmu, ukm [kajian kualiti air dan punca-punca pencemaran di alur ilmu, ukm]
|