List of articles (by subject) environmental engineering
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Open Access Article
1 - Investigation of microplastics as emerging contaminants in sources and health effects on humans, review study
Marjan Salari Mohammadbagher KhorasaniIn recent years, environmental contamination with plastics has become one of the biggest concerns of various communities. Microplastics (MPs) are plastics less than 5 mm in size. MPs remain in the environment for thousands of years without decomposing. However, accurate MoreIn recent years, environmental contamination with plastics has become one of the biggest concerns of various communities. Microplastics (MPs) are plastics less than 5 mm in size. MPs remain in the environment for thousands of years without decomposing. However, accurate analytical methods for the detection and characterization of MPs are scarce. In this descriptive-review study, based on the studies of various researchers and the papers of recent years, this contamination has been introduced and its adverse effects on human health and different environments have been discussed. The results of the studies have shown that microplastic contamination of salt has been reported significantly between four different sources: sea salt 0-1674, lake salt 8-468 and well rock salt 0-204 microplastic per kg (MPs/kg). The number of MPs in untreated water is 1437±34 to 3605±497 particles per liter and in general, the amount of microplastics in treated water is about 83% less than untreated water generally. The length and diameter should be considered when reporting the presence of MPs because the diameter is significant for respiration, while length plays a vital in durability and toxicity. Although the adverse health effects of microplastics have not been fully revealed, but the transfer of chemicals from microplastics to living organisms is a significant concern, and a better understanding of the potential dangers of microplastics is essential to human health. Manuscript profile -
Open Access Article
2 - Design, manufacture and evaluation of capacitive sensors to measure soil moisture
elham movahedPrecision agriculture is a new notion in modern agriculture. One of the reasons of the precision agriculture's growth among scientists and farmers, is the technological advancement in different fields including the geographic path system(GPS), sensors, aerial photos or MorePrecision agriculture is a new notion in modern agriculture. One of the reasons of the precision agriculture's growth among scientists and farmers, is the technological advancement in different fields including the geographic path system(GPS), sensors, aerial photos or satellite ( or RS ) and geographic information management facilities . Existence of parametric detection problems in the field of laboratory operations in the agricultural sector, particularly the detection of soil moisture persuade the specialists that always try to reach a suitable solution for soil moisture measurement needed for the plants and interested areas. So in this investigation it is tried to enable the detection of soil moisture by designing and making a hygrometer sensor which has been used of capacitive property in it. This capacitive sensor consists of two insulated aluminum plates that changes by changing the soil moisture, index of dielectric capacitor and its capacitance and frequency of the output circuit . From the characteristics of the device it can be detected to simultaneously moisture detection at several points of the field and also usage in control of the watering amount required by the plants. This machine in vitro was tested in 80 areas and for more exact tests by other different sensors. The mean error percentage received by the capacitive sensor is 0.60%. Manuscript profile -
Open Access Article
3 - Removal of lead with metallic organic nanostructures of iron and benzene tricarboxylate from aqueous solution
reza alizadehHeavy metals are not chemically degraded, in order to prevent the entry and accumulation of this toxic pollutant along with factory effluents into the environment, so far, different methods have been used, but finding new methods with more efficiency in this area is nec MoreHeavy metals are not chemically degraded, in order to prevent the entry and accumulation of this toxic pollutant along with factory effluents into the environment, so far, different methods have been used, but finding new methods with more efficiency in this area is necessary. In this research, a new class of compounds called organic metallic materials has been used to remove industrial effluent lead. These organic metallic materials contain iron and benzene tricarboxylate. To identify the characteristics of these materials, electron microscope images and Nitrogen adsorption and desorption isotherms has been used. To determine the optimal conditions for using these materials for lead removal from the effluent, the effect of parameters: time (10-120 min), the amount of adsorbent (0.2-0.5 mg/L), pH (3.5 -12.5) and temperature (10-75 ° C) were evaluated. The results show that the composition of MIL-100 (Fe) has a better performance than the other materials in this study and complete removal of lead was achieved with an initial concentration of 10 mg/l and an adsorbent dose of 0.25 mg / l, at a temperature of 50 ° C, pH =4.3 and contact time of 120 min. Other properties of this material in removal of industrial effluent lead such as magnetic properties, reusability in five consecutive periods, large surface area, low cost, high efficiency and easy to use, make it an ideal option for large-scale use. Manuscript profile -
Open Access Article
4 - Removal of Methylene blue dye from water by using Fe-BTC
reza alizadehFe-BTC (benzene tricarboxylic) synthesized by ultrasonic irradiation as a novel photo catalyst was investigated for degradation of methylene blue (MB)by UV/ photo catalyst system. In this study, for the first time, a facile ultrasonic method was employed to prepare Fe-B MoreFe-BTC (benzene tricarboxylic) synthesized by ultrasonic irradiation as a novel photo catalyst was investigated for degradation of methylene blue (MB)by UV/ photo catalyst system. In this study, for the first time, a facile ultrasonic method was employed to prepare Fe-BTC. The effects of temperature (50 and 70 °C) and irradiation time (90 and 120 min) were investigated to get the optimum photo catalyst. The nanoparticles of the synthesized Fe-BTC obtained were smaller and more homogeneous than those previously reported. The synthesized Fe-BTC samples showed good photocatalytic performance. The Fe-BTC 70-120 sample has shown the highest photocatalytic activity. The enhanced photocatalytic performance was related to two important factors which are the inhibition of the recombination process of the charge carriers and also the increase in the total area of the photo catalyst. The kinetics of degradation in this study has followed Langmuir-Hinshelwood pseudo-first-order theory. The Fe-BTC70-120 sample due to smaller particles and lower electron-hole recombination showed the highest photocatalytic degradation. The results of the mechanism showed the reactivity of hydroxyl radical oxidation in methylene blue degradation. The stability test also showed the high stability of Fe-BTC70-120 sample for three cycles. Photocatalytic degradation of MB by Fe-BTC with high activity and recycling stability may provide a new choice for wastewater treatment Manuscript profile -
Open Access Article
5 - Molecular Markers in Conservation Biology Studies
Nafiseh Momeni Mohsen AhmadpourIntroduction: Molecular science has an important role in the conservation and stability of animal species. Biology conservasion is essential to identify populations decline to implement adequate restoration programs. Despite molecular developments, there are many studie MoreIntroduction: Molecular science has an important role in the conservation and stability of animal species. Biology conservasion is essential to identify populations decline to implement adequate restoration programs. Despite molecular developments, there are many studies in this field to better understanding molecular merkers. Objective: In this study, the genetic markers were examined that were used in more than 100 Persian and English articles. Materials and Methods: Sources were selected from studies in the field of conservation biology, biology, molecular ecology, molecular markers and other related topics to provide a clearer model of each marker usage in the field of conservation biology. Results: In general, each molecular marker is not limited to one case, but there is a clear relationship between the characteristics of each marker and the maximum usage in many cases. Discussion: However, selecting the adequate marker in a wildlife conservation study the following steps are suggested: 1) study the species 2) Check the problems scale 3) Characteristics of molecular markers. Also, considering the mutation rate and the variability degree among nuclear and mitochondrial markers has a role in selecting of adequate marker. But in order to obtain accurate genetic and ecological information in conservation biology, the principles of population genetics and molecular evolution require more comprehensive education; By comparing molecular results with other sciences and quality control of the sequenced gene, more reliable results were obtained in the field of genetics and conservation. Manuscript profile