A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab
Introduction: The increased demands for drinking water from water vending machines is due to the consumer convenience and warranty from vendors in terms of water treatment. Nonetheless, failure to meet the standards of safe water quality will impose health hazards to consumers directly attributable...
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Microbial ecology Bacteria Public health. Hygiene. Preventive Medicine Toxicology. Poisons Environmental health. Including sewage disposal, air pollution, nuisances, water supply Infectious and parasitic diseases |
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Microbial ecology Bacteria Public health. Hygiene. Preventive Medicine Toxicology. Poisons Environmental health. Including sewage disposal, air pollution, nuisances, water supply Infectious and parasitic diseases Ab Wahab, Nurshuhada A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
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Introduction: The increased demands for drinking water from water vending machines is due to the consumer convenience and warranty from vendors in terms of water treatment. Nonetheless, failure to meet the standards of safe water quality will impose health hazards to consumers directly attributable to recontamination, unhygienic and poorly serviced of water vending machines. Studies shown mainly bacterial contaminants such as Escherichia Coli, Coliform and Clostridium perfringens were present from the water samples. Objectives: Study was conducted to assess the quality of drinking water sold from water vending machines and its potential risks to human in Sepang District. Next is to identify water quality (physical, E.Coli bacteria and total coliform) from water vending machines, besides to compare the quality of water from different types of disinfectant used in water vending machines and lastly to discuss the health hazards of drinking water consumption from water vending machines. Methodology: A total of 39 water samples were taken from different water vending machines in Sepang District for physical (pH, turbidity and temperature) and microbiological (E.Coli bacteria and total coliform) parameters analysis, analyze by using in-situ techniques for physical parameters and Colilert Procedure for microbiological parameters. For water sampling method, physical parameter analysis (pH, turbidity and temperature) was conducted by using pH meter and Turbidimeter instruments. After physical parameter analysis done, the water was stopped by pressing hold button. Then, hand sanitizer was applied by the sampler for the microbiological parameter analysis. The nozzles of the machines were sterilized by using alcohol swab. The water was flushed and let it run for 2-3 minutes after the nozzles were sterilized. Water samples were taken for microbiological parameters (E.Coli and total coliform) by opening the thio-bag with aseptic technique and filled it with 100 ml water. The thio-bag then sealed. Each samples labeled with sample id, date and time. The samples were transported to the laboratory in cool box with temperature between 2-10°C within 24 hours for analysis. Then, in laboratory, 100 ml water sample was transferred from thio bag into sterile vessel and Colilert reagent was added. Then, the sample was poured into Quanti-Tray the Quanti-Tray was sealed by using Quanti-Tray Sealer. Kept the Quanti-Tray in incubator at 36.5°C for 24 hours and read the result after 24 hours. If yellow is observed, Total Coliforms is present. Sample then was placed within 5 inches under UV light in dark environment. If fluorescence is greater or equal to the fluorescence of the comparator, the presence of E.Coli bacteria is confirmed. Result: 22 out of 39 water vending machines in Sepang district used nano silver as disinfectant while another 17 water vending machines used ultraviolet light. 9 water samples using both types of disinfectant (nano silver=3 & ultraviolet light=6) were found with pH > 8.5 which is violating the pH standard. Furthermore, both types of disinfectant used violates with the turbidity standard which all the water vending machines show the results more than 0.1 NTU. The higher level of turbidity in the water usually related to microbial activity growth. However, all the physical parameters (pH, turbidity and temperature) are not significantly associated to the types of disinfectant used since the result of p-value is more than 0.05. For microbiological parameters, pH in the water samples is not associated to coliform growth and p-value is 0.075 (> 0.05). Furthermore, all the reading of turbidity in water samples is more than 0.1 NTU, thus chi-square test cannot be done since the results of turbidity cannot be compared (all the reading more than 0.1 NTU). The visual binning in SPSS was used to categorize the group of temperature. The presence of total coliform is correlated with the rise of temperature in the water samples with p-value 0.02 (less than 0.05). 16 water samples were detected with the presence of total coliform regardless types of disinfectant (nano silver=27.2% and ultraviolet light=58.8%) and none were detected for E.coli. In other words, there is higher prevalence of total coliforms detected in ultraviolet light as compared to nano silver. However, chi-square p-value is 0.522 which is not significant. Conclusion: The quality of drinking water from water vending machines in Sepang District violates the Food Regulation 1985 standards for physical parameter. In addition to that, the presence of total coliform was detected and it was found that water vending machines with ultraviolet light disinfectants (58.5%) have higher prevalence than nano silver (27.2%) but the results are not significant. However, the consumption of drinking water from water vending machines may cause potential health hazards to the consumers in future depending on the types of contaminants at certain levels of exposure. This study recommends periodical maintaining services by the vendors as well as regular water sampling and monitoring by the Ministry of Health (MOH). |
| format |
Student Project |
| author |
Ab Wahab, Nurshuhada |
| author_facet |
Ab Wahab, Nurshuhada |
| author_sort |
Ab Wahab, Nurshuhada |
| title |
A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
| title_short |
A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
| title_full |
A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
| title_fullStr |
A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
| title_full_unstemmed |
A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab |
| title_sort |
study of water quality from water vending machines and its potential risk to human in sepang district / nurshuhada ab wahab |
| publishDate |
2017 |
| url |
http://ir.uitm.edu.my/id/eprint/45766/1/45766.pdf http://ir.uitm.edu.my/id/eprint/45766/ |
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my.uitm.ir.457662021-04-30T10:36:01Z http://ir.uitm.edu.my/id/eprint/45766/ A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab Ab Wahab, Nurshuhada Microbial ecology Bacteria Public health. Hygiene. Preventive Medicine Toxicology. Poisons Environmental health. Including sewage disposal, air pollution, nuisances, water supply Infectious and parasitic diseases Introduction: The increased demands for drinking water from water vending machines is due to the consumer convenience and warranty from vendors in terms of water treatment. Nonetheless, failure to meet the standards of safe water quality will impose health hazards to consumers directly attributable to recontamination, unhygienic and poorly serviced of water vending machines. Studies shown mainly bacterial contaminants such as Escherichia Coli, Coliform and Clostridium perfringens were present from the water samples. Objectives: Study was conducted to assess the quality of drinking water sold from water vending machines and its potential risks to human in Sepang District. Next is to identify water quality (physical, E.Coli bacteria and total coliform) from water vending machines, besides to compare the quality of water from different types of disinfectant used in water vending machines and lastly to discuss the health hazards of drinking water consumption from water vending machines. Methodology: A total of 39 water samples were taken from different water vending machines in Sepang District for physical (pH, turbidity and temperature) and microbiological (E.Coli bacteria and total coliform) parameters analysis, analyze by using in-situ techniques for physical parameters and Colilert Procedure for microbiological parameters. For water sampling method, physical parameter analysis (pH, turbidity and temperature) was conducted by using pH meter and Turbidimeter instruments. After physical parameter analysis done, the water was stopped by pressing hold button. Then, hand sanitizer was applied by the sampler for the microbiological parameter analysis. The nozzles of the machines were sterilized by using alcohol swab. The water was flushed and let it run for 2-3 minutes after the nozzles were sterilized. Water samples were taken for microbiological parameters (E.Coli and total coliform) by opening the thio-bag with aseptic technique and filled it with 100 ml water. The thio-bag then sealed. Each samples labeled with sample id, date and time. The samples were transported to the laboratory in cool box with temperature between 2-10°C within 24 hours for analysis. Then, in laboratory, 100 ml water sample was transferred from thio bag into sterile vessel and Colilert reagent was added. Then, the sample was poured into Quanti-Tray the Quanti-Tray was sealed by using Quanti-Tray Sealer. Kept the Quanti-Tray in incubator at 36.5°C for 24 hours and read the result after 24 hours. If yellow is observed, Total Coliforms is present. Sample then was placed within 5 inches under UV light in dark environment. If fluorescence is greater or equal to the fluorescence of the comparator, the presence of E.Coli bacteria is confirmed. Result: 22 out of 39 water vending machines in Sepang district used nano silver as disinfectant while another 17 water vending machines used ultraviolet light. 9 water samples using both types of disinfectant (nano silver=3 & ultraviolet light=6) were found with pH > 8.5 which is violating the pH standard. Furthermore, both types of disinfectant used violates with the turbidity standard which all the water vending machines show the results more than 0.1 NTU. The higher level of turbidity in the water usually related to microbial activity growth. However, all the physical parameters (pH, turbidity and temperature) are not significantly associated to the types of disinfectant used since the result of p-value is more than 0.05. For microbiological parameters, pH in the water samples is not associated to coliform growth and p-value is 0.075 (> 0.05). Furthermore, all the reading of turbidity in water samples is more than 0.1 NTU, thus chi-square test cannot be done since the results of turbidity cannot be compared (all the reading more than 0.1 NTU). The visual binning in SPSS was used to categorize the group of temperature. The presence of total coliform is correlated with the rise of temperature in the water samples with p-value 0.02 (less than 0.05). 16 water samples were detected with the presence of total coliform regardless types of disinfectant (nano silver=27.2% and ultraviolet light=58.8%) and none were detected for E.coli. In other words, there is higher prevalence of total coliforms detected in ultraviolet light as compared to nano silver. However, chi-square p-value is 0.522 which is not significant. Conclusion: The quality of drinking water from water vending machines in Sepang District violates the Food Regulation 1985 standards for physical parameter. In addition to that, the presence of total coliform was detected and it was found that water vending machines with ultraviolet light disinfectants (58.5%) have higher prevalence than nano silver (27.2%) but the results are not significant. However, the consumption of drinking water from water vending machines may cause potential health hazards to the consumers in future depending on the types of contaminants at certain levels of exposure. This study recommends periodical maintaining services by the vendors as well as regular water sampling and monitoring by the Ministry of Health (MOH). 2017-07 Student Project NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/45766/1/45766.pdf Ab Wahab, Nurshuhada (2017) A study of water quality from water vending machines and its potential risk to human in Sepang District / Nurshuhada Ab Wahab. [Student Project] (Unpublished) |
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13.160551 |