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Articles by A.L. Rantetampang
Total Records ( 2 ) for A.L. Rantetampang
  Anwar Mallongi , Irwan and A.L. Rantetampang
  Background and Objective: Mercury (Hg) direct emission of amalgam open burning from Artisanal Buladu gold mine is the main Hg pollutant point source of air ambient, atmospheric deposition, surface water, soil and plants. This process has been occurred for more than 25 years in the Buladu gold mine but no informative data from this area is available. This study aimed to investigate the Hg emission in air, atmospheric dry deposition and Hg inhalation rate among the children school, communities and miners in the mining area. Materials and Methods: Dry deposition sampling was conducted using a set of glass dish sampler. Both Total dry deposition and THg atmosphere were estimated in the summer which corresponded to the climatologically dry seasons in Gorontalo Province, like wise personal inhalation rate were measured among the school children, communities and gold miners in nine respondents each. Statistical analyses of the survey data were performed using Stata 13.0 (Stata, College Station, TX, USA) and SPSS (Version 16). In addition to descriptive analyses, descriptive table, Student t-tests were used to compare means of Likert scales. Results: The average of total atmospheric of Hg showed a small concentration (0.0034 μg m–2) in the background site whereas highly elevated (1.19-1.54 μg m–2) in the study area. In addition, dry deposition Hg show a similar level (0.06 μg m–2) in background and (1.11-1.54 μg m–2) in the study area, respectively. Since St. 2 is the closest distance from the point source, the peak level THg generated by the direct fall of THg in the site. Result of target hazard quotient of the Hg are in the decreasing order of mine workers >community >students and their highest risk values are 1.54, 0.98 and 0.93, respectively. Finally, the THQ values obtained from this study due to this primary exposure route for the Hg investigated were higher than for all in the working mine site. Conclusion: The results showed that the working years have reasonable correlation with the sum of the positive findings in the 10 neurological symptoms among miners. Then, the closest Hg source distance the higher Hg concentration accumulation found. The recorded mercury in Buladu gold mine area showed that the magnitude concentrations of THg (p) in amalgam burning centre was higher than those of school and in community area.
  Anwar Mallongi , Fadly Nur Rahman Umar , Atjo Wahyu , Muh. Saleh , Fatmawati , Abdul Muhith , Herawati , Muhammad Ridwan , A.L. Rantetampang and Yacob Ruru
  The amount of exhaust emissions resulting from the burning of motor vehicles caused the air in the city of Makassar to be polluted. This study aims to estimate the concentration of Sulfur dioxide (SO2) and Nitrogen dioxide (NO2) for 10 years (2017-2027) on the main road of Makassar city. This research is an observational analytic research with dynamic system model approach. Results showed that in the next 10 years, the estimated total concentration of total Sulfur dioxide (SO2) in the first scenario without do nothing in 2017 of 6.44 μg/Nm3 increased by 2027 by 8,581 μg/Nm3 by multiples of increased concentration 61.58 times/month and an annual increase of 1.80 times/year whereas the estimated concentration of Nitrogen dioxide (NO2) in the absence of control measures increased from 2017 by 4.99 μg/Nm3 increased by 2027 by 7,934 μg/Nm3 by multiples of increased concentration 37.6 times/month. Application of Second Scenario (2) has decreased total concentration of Sulfur dioxide (SO2) and Nitrogen dioxide (NO2) when compared to total concentration in first scenario (I). Increasing the concentration of Sulfur dioxide (SO2) in 2017 by 6.44 μg/Nm increased by 2027 by 3785 μg/Nm3 with total monthly concentration increase of 37.4 times/months and total annual concentration increase of 0.72 times/year. Effectiveness in the second scenario in reducing the concentration of Nitrogen dioxide (NO2) by 22.72%. Application of the third scenario (3) there is a significant decrease in the concentration of sulfur dioxide and nitrogen dioxide when compared to the first scenario (1). Effectiveness in the third scenario (3) in reducing sulfur dioxide concentration of 66.43%. Implementation of the fourth scenario (4) passenger shift for the use of bus rapid transportation (bus rapid transportation) with the aim of decreasing the volume of vehicles operating on the main road, if it is assumed that 50% of passengers switch to BRT bus, BRT passengers in 2027 will be 3960/days.
 
 
 
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