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Showing 3 results for Jafari Mansoorian
Study of application of alumina-coated carbon nanotube for removal of Hydroxy Benzene from aqueous solutions: Adsorption and determination of equilibrium and kinetics parameters
M Malakootian, A. H Mahvi, H Jafari Mansoorian, M Alizadeh, A.r Hosseini,
Volume 8, Issue 2 (8-2015)
Abstract

Background and Objective: Phenol and phenol derivatives in industrial wastewater are among the pollutants with priorities. The high cost and low efficiency of some routine treatment processes of industrial wastewater has limited their use. One of the new methods under consideration is, nowadays, adsorption using carbon nanotubes. This study was conducted in order to evaluate the application of alumina-coated multiwall carbon nanotubes in eliminating phenol from synthetic wastewater. Materials and Methods: This study was performed in laboratory at batch scale. Multi-wall carbon nanotubes were coated with Alumina. The concentration of phenol was determined by spectrophotometer through photometry. The effect of pH changes, dosage of adsorbent, contact time, the initial concentration of phenol, temperature, and the concentrations of different salts on the efficiency of absorption was evaluated. Then, the absorption results were described using the Langmuir and Freundlich isotherms and the synthetics of absorption. Results: It was found that absorption efficiency increased significantly by decreasing the initial concentration of phenol and pH and by increasing the carbon nanotube dosage, temperature, and contact time. On the other hand, the maximum elimination of phenol from the solution (98.86%) occurred at 4 mg/l phenol concentration, under acidic conditions (pH=3), at adsorbent dosage of 0.05 g/l, at temperature of 45°C, and contact time of 10 min. Evaluation of the regressions isotherms showed that the process follows the Langmuir model and second-degree synthetic absorption. Conclusion: The high efficacy (98%) of the adsorption process in this study showed that alumina-coated multiwall carbon nanotubes have a good capability in eliminating phenol and can be used as an appropriate and new method for eliminating phenol and its derivatives from wastewater.


Investigation of visual pollution caused by jobs and urban workshops and negative impacts on the people: a case study in the city of Qom
Mohammad Fahiminia, Hossein Jafari Mansoorian, Akbar Eskandari, Mohammad Ghafoori, Enayat Afsar,
Volume 15, Issue 3 (12-2022)
Abstract
Background and Objective: Visual pollution is one of the important components of the man-made environment in urban spaces. The purpose of this research was to investigate the visual pollution of workshops in Qom city using Expert Choice software and then the occupational ranking was done in terms of visual pollution.
Materials and Methods: This study was a descriptive-analytic cross-sectional study conducted in 670 trade units associated with 67 urban trade unions. The data collection tools were local visits, database preparation and completion of a questionnaire based on urban-environmental aesthetic criteria. The purpose of this study was to investigate the visual pollution caused by the occupations and workshops of Qom.
Results: The results showed that, in terms of total visual pollution, the units of oil changes with a total score of 1, materials and construction materials with 0.988, Smoothies with 0.980, Mechanics with 0.973, ceramic makers with 0.944, Chips and grills with 0.933, mosaics with 0.914, carwash with 0.885, stones cutting with 0.872, carpet with 0.870, trowel and blacksmiths with 0.857, burners with 0.830, battery makers with 0.825, iron manufacturers with 0.872 and manufacturers of general blinds and blinds with 0.753 were inadequate.
Conclusions: In order to reduce the number of visually impaired businesses in the short term, continuous inspections of businesses must be undertaken and, in the long run, by organizing the program, the polluting industries must be transferred out of the city.
 

Assessment of the current status and integrated waste management at Azadi sports complex in Tehran: a case study
Mohammad Fahiminia, Hossein Jafari Mansoorian, Akbar Eskandari, Amirhossein Karimpour Ardestani, Gharib Majidi, Samira Bahrami Valeh,
Volume 17, Issue 1 (6-2024)
Abstract
Background and Objective: Waste management as an inevitable byproduct is one of the most critical environmental issues in any society. Its management is essential for preventing environmental pollution. The aim of this research is to examine the management of production waste in the Azadi Sports Complex.
Materials and Methods: This research is a descriptive, cross-sectional, and empirical study that utilizies questionnaires, field visits, weight analysis, sampling, and determination of the physicochemical characteristics of waste. The questionnaire includes questions about the production rate, source reduction, separation, recycling, collection, storage location, transportation outside the complex, and final disposal of waste.
Results: The amount of waste generated from the Azadi Sports Complex was 449.87±4.83kg/day, with the highest waste production observed from the Wrestling Federation (95.37 kg/day) and the lowest from the Kung Fu Federation (12.75 kg/day) and the clinic (12 kg/day). The results of the physicochemical characteristics indicated that the average moisture content was 47%. Combustible materials accounted for 67% with a high calorific value of 12807 kcal/kg, and the ash content was 42%. The dry and wet wastes were collected daily, mixed together, and stored together in an enclosed area.
Conclusion: The results showed that the waste separation, recycling, and storage practices in the Azadi Sports Complex are unsatisfactory. Additionally, there is no existing program for waste reduction at the source or recycling. Therefore, the establishment of a proper waste management system to mitigate the waste volumes in this complex is necessary.
 

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