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Open Access Article
1 - Study of the different microbial biodegradation methods efficiency in the removal of crude oil hydrocarbon contaminants
Farhood Navaie Abbas HashemizadehPetroleum hydrocarbon pollutants are one of the hardest compounds in terms of decomposition and control and classified as stable and important organic pollutants that have adverse effects on human health and the environment and combating environmental pollution caused b MorePetroleum hydrocarbon pollutants are one of the hardest compounds in terms of decomposition and control and classified as stable and important organic pollutants that have adverse effects on human health and the environment and combating environmental pollution caused by them is an important issue for the world and human societies. Although the removal of these pollutants from the environment is a major problem, biodegradation (which uses natural microbial biodegradation activity) is an ecofriendly and economical approach to control these types of contaminants and has become a pivotal method of cleaning up environments contaminated with petroleum hydrocarbons. The present study provides a comprehensive, uptodate and efficient review of the bioremediation of petroleum hydrocarbon pollutants, taking into account the hydrocarbon alterations in microorganisms with a particular focus on the new insights gained in recent years. Also, the metabolism of hydrocarbons in microorganisms has been described by reviewing research presented in recent years. The results of studies show well that petroleum hydrocarbon pollutants are biodegradable using some microorganisms such as oleophilic and their removal by this method is cost-effective and economical. Microbial biodegradation of petroleum hydrocarbon contaminants uses the enzymatic catalytic activities of microorganisms to increase the degradation of contaminants several times more than traditional methods Manuscript profile -
Open Access Article
2 - Photo-transformation of hydrogen sulfide environmental pollutant to hydrogen fuel using a carbon-based magnetic nanocomposite catalyst
Majid Ghanimati Mohsen Lashgari Mahchehreh SabetiHydrogen sulfide is a dangerous, corrosive and flammable environmental pollutant that is generated at large scale in sour oil and gas industries. One of the sustainable strategies to remove this environmental pollutant and convert it into hydrogen clean fuel is the use MoreHydrogen sulfide is a dangerous, corrosive and flammable environmental pollutant that is generated at large scale in sour oil and gas industries. One of the sustainable strategies to remove this environmental pollutant and convert it into hydrogen clean fuel is the use of a renewable energy source (photon) and synthesis of semiconducting nanoenergy materials. To this end, in the present project, a nanostructured magnetic semiconducting MgFe2O4 compound was synthesized and applied for the production of hydrogen fuel through photocatalytic splitting of an alkaline H2S solution. The empirical evidence revealed that the synthesized material has an appropriate potency to reduce proton and produce hydrogen. Furthermore, by the synthesis of CNT/MgFe2O4 magnetic nanocomposite, the boosting effect of carbon nanotube (CNT) on the activity of the aforementioned photocatalyst was examined. A significant promotion in hydrogen production was observed in the presence of CNT and justified in terms of increasing the photocatalyst surface area, retarding the electron-hole recombination process and enhancing the photon absorption. The rate of hydrogen evolution was 1284 µmole/h per 0.2 g photocatalyst, indicating that the synthesized nanocomposite material has a high ability to remove the pollutant and produce hydrogen fuel. Manuscript profile -
Open Access Article
3 - Environmental effects of plastic waste entering the sea and its management methods (Review study)
Seyedeh Bahareh Aimi gholamreza allahghlipour yoosf azimiAbstract One of the consequences of the developments of the world society in the last century is the development of urbanization and the focus of human communities in urban areas. The growth of population and tendency to urbanization is one of the developments of the MoreAbstract One of the consequences of the developments of the world society in the last century is the development of urbanization and the focus of human communities in urban areas. The growth of population and tendency to urbanization is one of the developments of the current century, which intensified the use of resources and the production of waste. This increase in population along with the development of urbanization leads to the consumption of natural resources and as a result, it leads to production of all kinds of wastes. So, waste management in the world is becoming a big challenge in urban areas. This challenge is greater, especially in big towns. These wastes have not only entered the human ecosystem and the land of the earth, but also entered the seas and it has also left unfavorable effects on aquatic creatures. In order to keep pace with the needs of rapid economic development and continuous population growth, and also because of the vital role of waste management in preserving the environment and public health, marine waste management is one of the current priorities of societies. Disposal and accumulation of waste in the marine environment is one of the environmental threats that is increasing at a very fast pace. The purpose of this study is to review sources and collect information about the entry of plastic waste into the sea, its environmental effects and methods of marine plastic waste management. Manuscript profile -
Open Access Article
4 - Assessment of Water Quality parameter using RGB images in Anzali wetland
Mohadese Tavakoli Mohammad Javad ChaeichiWetlands are one of the most prominent ecosystems in the world. These vital and diverse habitats are among life-giving systems that have no alternative. However, none of the world's ecosystems have experienced human-centered injuries and damages as much as wetlands. One MoreWetlands are one of the most prominent ecosystems in the world. These vital and diverse habitats are among life-giving systems that have no alternative. However, none of the world's ecosystems have experienced human-centered injuries and damages as much as wetlands. One of the main threats to Gilan wetlands are human factors such as urban, domestic and industrial wastewater, overfishing and converting wetland marginal lands into agricultural lands. In this study, RGB images were used to assess the water quality parameters of Anzali wetland (Beheshti Island Station) and the related data were compared to the values obtained from the TSS measurement. Based on the obtained data, the intensity of red color (R) in the macroscopic images (with the naked eye) from the wetland can be an environmental indicator to measure TSS concentration. The results of RGB analysis for red color with a correlation coefficient of 0.8513, for green color (G) with a correlation coefficient of 0.832 and for blue color (B) with a correlation coefficient of 0.663 were obtained. Finally, a correlation coefficient (R2=0/8035) between the decrease of RGB values and the increase of TSS concentration was obtained. Other parameters such as pH and Secchi Depth test were also measured in this study. Manuscript profile
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