مدل سازی پالایش سبز خاک های آلوده به سرب و کادمیم
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Abstract:
Phytoremediation is a new technology that employs plants to remediate contaminated soils. This method compared to those that involve the use of large scale energy consuming equipments is an inexpensive method. Phytoremediation models are useful tools to further understanding the governing processes and also to manage the contaminated soils. A thorough literature review indicates that very few models have been developed for phytoremediation due to the complexity of the phenomena. The objective of this study was to develop a simple model for phytoremediation of lead and cadmium. A new formulation of phytoremediation was established based on soil and plant responses to heavy metal pollution. A large quantity of a sandy loam soil was thoroughly mixed to ensure homogeneous different concentration levels by lead and cadmium. These contaminated soils were transferred to some plastic pots. Land Cress (Barbarea verna) and Spinach (Spinacia oleracea L.) seeds were germinated in pots containing 8 kg of contaminated soil. Plants were harvested at five time intervals. The concentrations of Pb and Cd in the plant and soil samples were digested by wet oxidation and 4 M Nitric acid digestion methods, respectively, and were determined by flame and graphite furnace atomic absorption spectrometry methods. Proposed models then were calibrated using the collected data and validated quantitatively. The results indicated that the soil adsorption isotherms followed a linear form for both Pb and Cd concentrations. The results also indicated that the phytoremediation rate of Pb by Land Cress and Spinach are first-order function of Pb concentration in soil. In contrast, a zero-order function of soil Cd contaminations was obtained. Combining these two results of soil and plant responses to Pb and Cd pollution, a simple model with reasonable performance was derived to predict the time needed for remediation of soil Pb (R2 > 0.98). However, in the case of Cd, the derived models appeared to be useful to make only some overall estimations of the remediation (R2≈0.70).
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مدل سازی پالایش سبز خاک های آلوده به نیکل
آلودگی محیط زیست از مسائل مهمی است که جوامع مختلف با آن روبه رو هستند. فلزات سنگین به دلیل غیر قابل تجزیه بودن و آثار زیان بار فیزیولوژیک بر جانداران در غلظت های کم، اهمیتی ویژه در آلودگی محیط زیست دارند. لذا باید با استفاده از روش های مناسب از محیط زیست زدوده شوند. پالایش سبز یا به عبارتی حذف بیولوژیک آلاینده ها یکی از روش های موثر و اطمینان بخش نسبت به سایر فناوری های پاک سازی است. لیکن می با...
15 صفحه اولمدل سازی پالایش سبز خاک های آلوده با دو آلاینده نیکل و کادمیم
آلودگی خاک به فلزات سنگین از پی آمدهای دخالت انسان در طبیعت است که اغلب به یک آلاینده محدود نمی شود. معمولاً در مکان های آلوده، چند فلز سنگین به طور توأمان در غلظت های زیاد در خاک یافت می شوند. نیکل (ni) و کادمیم (cd) از فلزات سنگینی هستند که می توانند آسیب هایی قابل توجه به زیست بوم و سلامت انسان وارد آورند. از این رو، یافتن راه کارهایی کارآمد، کم هزینه و آسان برای زدودن یا کاهش این آلاینده ها ...
بررسی پتانسیل قارچ ریشهها و باکتریهای سودوموناس در پالایش سبز کادمیم از یک خاک آلوده
The use of plants and soil microorganisms is a promising technique for the phytoremediation of heavy metal-contaminated soils. This study was carried out in order to evaluate the soil microbial potential with four Cd concentration levels (0, 10, 30 and 100 mg kg-1); the study also addressed the inoculation of arbuscular mycorrhizal fungi (AMF) species (a mixture of Glomus species including G. i...
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Journal title
volume 11 issue 42
pages 417- 426
publication date 2008-01
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