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  • دکتری (1391)

    مهندسی عمران - مهندسی محیط زیست

    دانشگاه علم و صنعت ایران،

  • کارشناسی‌ارشد (1386)

    مهندسی عمران - مهندسی محیط زیست

    دانشگاه علم و صنعت ایران،

  • کارشناسی (1383)

    مهندسی عمران - عمران

    دانشگاه صنعتی اصفهان،

  • محیط زیست معدنی
  • آلودگی آب و خاک و تصفیه پساب های معدنی
  • مدیریت باطله های معدنی
  • محیط زیست معدنی
  • آلودگی آب و خاک و تصفیه پساب های معدنی
  • مدیریت باطله های معدنی

    دانش آموخته مهندسی عمران-محیط زیست از دانشگاه علم و صنعت ایران در سال 1391 و عضو هیأت علمی دانشگاه تربیت مدرس در دانشکده فنی و مهندسی-بخش معدن (گرایش معدن و محیط زیست) از سال 1394 علاقمند به پژوهش در حوزه های مرتبط با مدیریت پسماندهای شهری و باطله های معدنی، تصفیه منابع آب و خاک، انتقال و انتشار آلاینده ها در محیط

    ارتباط

    رزومه

    Application of enhanced electrokinetic remediation by coupling surfactants for kerosene-contaminated soils: Effect of ionic and nonionic surfactants

    Ali Barati Fardin, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersJournal of Environmental Management , Volume 277 , 2021 January 1, {Pages 111422 }

    Abstract

    Electrokinetic (EK) by coupling surfactants is an enhanced promising remediation technology to eliminate hydrophobic organic contaminants (HOCs) from low-permeable soils. It is also applied to remediate kerosene-contaminated soils using anionic (SDS) and non-ionic (Tween 80) surfactants at different concentrations. There was negligible removal efficiency (40%) of kerosene during traditional EK without any enhancement technique. In the present study, the application of 0.005M and 0.01M SDS in EK-SDS-1 and EK-SDS-2 improved the removal efficiency to 50 and 55%, respectively towards the anode. Furthermore, the use of Tween 80 in EK-Tw80-1 and EK-Tw80-2 at 0.1 and 1% concentrations was able to raise kerosene removal gradually from 45% to 52% to

    A review of additives used in the cemented paste tailings: Environmental aspects and application

    Alieh Saedi, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal Papers , Volume 289 , 2021 July 1, {Pages 112501 }

    Abstract

    A large amount of mine wastes is generated every year through mining and mineral processing operation. The management of mine tailings is an attractive topic for researchers from both environmental and economic aspects. Mine tailings have shown a capacity as a raw material for the construction industry or a substitution for previous materials to produce the cement. It is applied in some specific environments such as offshores or massive projects like large bridges and tunnels. However, the cement industry has caused a variety of environmental issues. The production of Portland cement on an industrial scale increases the greenhouse effects and generates acidic rains. It releases greenhouse gases by the generation of carbon dioxide. In recent

    Simultaneous removal of lead and cyanide from the synthetic solution and effluents of gold processing plants using electrochemical method

    MK Chegeni, A Shahedi, AK Darban, A Jamshidi-Zanjani, M Homaee
    Journal Papers , , {Pages }

    Abstract

    A review on different methods of activating tailings to improve their cementitious property as cemented paste and reusability

    Alieh Saedi, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal Papers , Volume 270 , 2020 September 15, {Pages 110881 }

    Abstract

    Over the past few decades, as demand for minerals and metals has increased, the amount and volume of wastes and tailings has also increased dramatically. The management and reuse of mineral wastes and tailings not only help protect the environment but also are properly associated with economic benefits. As a result, mineral processing wastes disposal and storage has become a global issue. Along with the use of cemented paste as a backfill in underground spaces, the use of mineral processing wastes in the construction industry or as a substitute for cement is one of the new approaches to mineral tailings management. It is worth noting that the cement industry is facing crucial environmental issues. Portland cement production in industries in

    A review on industrial wastewater treatment via electrocoagulation processes

    AK Darban, A Shahedi, F Taghipour, A Jamshidi-Zanjani
    Journal Papers , 2020 June 5, {Pages }

    Abstract

    Every year, a large amount of wastewater is discharged from various industries into the environment, and various methods are used to treat wastewater in order to reduce the amount of pollutants. Electrocoagulation (EC) is an electrochemically-based technique that generates coagulant species in situ from the electro dissolution of sacrificial anodes, usually made of iron or aluminum destabilizes suspended, dissolved, or emulsified pollutants by employing an electric current. It has a potential in removing various kinds of pollutants including organic and in-organic contaminants for various types of wastewater. The effectiveness of EC process depends on various parameters including pH, electrode, operation time, and current density. The goal

    Heavy metal pollution and human health risk assessment for exposure to surface soil of mining area: a comprehensive study

    Mohammad Abouian Jahromi, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersEnvironmental Earth Sciences , Volume 79 , Issue 14, 2020 July , {Pages 18-Jan }

    Abstract

    The contaminated soil by mining activities could be transported through the erosive effect of wind. In this study, human health risk was assessed for exposure to heavy metals (Cu, Zn, Cd, Pb) present in surface soil of Irankouh zinc–lead mine, (the nearest mine to Isfahan, Iran) as one of the main dust storm sources. The effect of improper mining waste and tailings management in the Irankouh zinc–lead mine was not deeply investigated. Thus, 65 surface soil samples were collected (mining and residential area) and subjected into chemical analyses, then various assessment approaches were conducted on the obtained data. It was found that the mean concentrations of Zn (1035.2?mg?kg−1, SD = 563.7), Cd (2.53?mg?kg−1, SD = 1.1), an

    The Effect of Time and pH on Improving the Efficiency of the Electrokinetic Method for Remediation of the Soil Contaminated by Chromium

    A Nasiri, A Jamshidi-Zanjani, A Khodadadi Darban
    Journal Papers , Volume 4 , Issue 400784, 2020 January 1, {Pages 111-125 }

    Abstract

    In the recent years, a wide range of contaminated soil by chromium has been reported in the mining and industrial area. Soil contamination by chromium is one of the most important environmental problems that adversely affects the health of living organisms and human beings. In this regard, electrokinetic is an effective method for soil remediation. This research, aims to investigate the effect of time and pH control on increasing the efficiency of the electrokinetic to remove chromium from contaminated soil. Pourbaix diagram used to interpret the results of experiments. According to the Pourbaix diagram, at pH= 6 trivalent chromium cationic species are dominant at this pH. As a result, these species have been migrated to the cathode. On the

    Application of enhanced electrokinetic approach to remediate Cr-contaminated soil: Effect of chelating agents and permeable reactive barrier

    Afshin Nasiri, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersEnvironmental Pollution , Volume 266 , 2020 November 1, {Pages 115197 }

    Abstract

    Enhanced electrokinetic (EK) technique was employed to remediate Cr-contaminated soil using a permeable reactive barrier (PRB) and chelating agents. Synthesized nanomagnetic Fe3O4 was used as a reactive material in PRB. Moreover, EDTA and citric acid (CA) were used as chelating agents. Sequential extraction method (SEM) was employed to determine Cr-elimination mechanism during the EK process. The results revealed that EDTA (78% Cr removal) was more effective than CA (54% Cr removal) in eliminating Cr from the contaminated soil during the EK process. The application of PRB in combination with EDTA was able to reduce the Cr removal rate to 70 and 66% by locating PRB in the middle section and near the anode/cathode reservoir, respectively. The

    Investigation of phenanthrene removal from contaminated soil using elektokinetic combined with fenton

    Sajad Adhmai, Ahmad Jamshidi, Ahmad Khodadadi
    Journal PapersModares Civil Engineering journal , Volume 20 , Issue 1, 2020 April 10, {Pages 0-0 }

    Abstract

    Polycyclic aromatic hydrocarbons are hydrocarbons that composed of two or more benzene rings. These compounds are produced by incomplete burning or pyrolysis of organic matter. Phenanthrene is a type of aromatic hydrocarbon composed of three benzene rings, whose known effects can be attributed to its stimulating effect and skin sensitivity. The remediation of contaminated soil with hydrocarbon pollutants is crucial issue due to the soil connection with the food cycle. There are several methods for contaminated soil remediation. Electrokinetic (EK) is considered as one of the innovative technique that capable to remove both heavy metals and hydrocarbon contaminant from the soil matrix. The oxidation and reduction agents are added to change t

    Stabilized Magnetite Nanoparticles for the Remediation of Arsenic Contaminated Soil

    Amir Zialame, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersJournal of Environmental Chemical Engineering , 2020 November 25, {Pages 104821 }

    Abstract

    In this work, the manganese ferrite was synthesized, and its effect on arsenite immobilization in soil was studied. The results of characterization using various experiments, including field emission scanning electron microscopy (FE-SEM) coupled with an energy-dispersive X-ray spectrometer, X-ray fluorescence (XRF), X-ray diffraction (XRD), Brunauer Emmett Teller (BET), and Fourier transform infrared (FTIR), proved that nanoparticles were synthesized with an average diameter of 33.8?nm and surface area of 72.5 m2g-1. The soil amendment process using the synthesized manganese ferrite led to a significant decrease in arsenite leachability/availability based on the Toxicity Characteristic Leaching Procedure (90.2%), Physiologically Based Extra

    Phenanthrene removal from the contaminated soil using the electrokinetic-Fenton method and persulfate as an oxidizing agent

    Sajad Adhami, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersChemosphere , 2020 November 18, {Pages 128988 }

    Abstract

    Remediation of soils contaminated with hydrocarbon materials is of particular importance due to their association with food chain. One of the remediation methods, which has been taken into account in recent years by researchers, is the electrokinetic technique. In this study, the electrokinetic method was used in combination with the Fenton technique to remove phenanthrene from clay soil. Oxidizing agent and catalyst used in the Fenton technique greatly influenced the efficiency of the remediation process. To investigate the effect of these two factors on the remediation process, it was made use of three different types of electrodes as catalyst, including graphite, iron, and copper, as well as hydrogen peroxide and sodium persulfate with d

    Effect of Increased Voltage and pH Adjustment to Improve the Efficiency of the Electrokinetic Method to Remove Kerosene from Contaminated Soil

    Ali Barati Fardin, Ahmad Khodadadi, Ahmad Jamshidi-Zanjani
    Journal PapersModares Civil Engineering journal , Volume 20 , Issue 3, 2020 October 10, {Pages 59-73 }

    Abstract

    Every year with the expansion and development of industrial and mining activities, millions of tonnes of toxic waste are produced throughout the world. Soil contamination by organic material as a result of various incidents and the leakage of organic compounds into the soil solid porous media will have an adverse effect on the environment. There are several methods for soil remediation contaminated with hydrocarbon compounds. Electrokinetic is one of the effective remediation which includes three main mechanisms for remediation, electroosmotic flow, ionic migration and electrophoresis. Electrokinetic is suitable in terms of cost and time for solid and porous fine-grained environment media that have high adsorption capacity of moisture and a

    Removal of chromium (VI) by adsorption on Manganese ferrite Nanoparticles: kinetic and thermodynamic study

    Behzad Eyvazi, Ahmad Jamshidi-Zanjani
    Journal PapersModares Civil Engineering journal , Volume 18 , Issue 5, 2019 February 15, {Pages 119-132 }

    Abstract

    The present study aimed to remove hexavalent chromium from aqueous solution by manganese ferrite nanoparticle. In this study, MnFe 2 O 4 was prepared based on co-precipitation method. The adsorbent properties were determined using scanning electron microscopy (SEM), X-ray diffraction (XRD). In this research, the effects of pH (2, 5, 7, 9 and 11), contact time of 2 to 360 minutes and concentrations of 1 to 200 mg/l and temperature (283 to 328 K) for the removal of hexavalent chromium were investigated. The agitation parameter was kept constant for all experiments at 170 rpm. The results of nanoparticle synthesis showed that the nanoscale dimensions were less than 200 nm, and the shape of the spherical particles followed the cubic spinel stru

    Synthesis of nano-magnetic MnFe2O4 to remove Cr (III) and Cr (VI) from aqueous solution: A comprehensive study

    Behzad Eyvazi, Ahmad Jamshidi-Zanjani, Ahmad Khodadadi Darban
    Journal PapersEnvironmental Pollution , 2019 November 29, {Pages 113685 }

    Abstract

    The co-precipitation method was used to synthesize nano-magnetic adsorbent MnFe2O4 (nMFO), characterized through XRD, SEM, EDS, and BET techniques. The synthesized nMFO was used for hexavalent and trivalent chromium ions elimination from the aqueous phase. The optimum pH for the adsorption of Cr (VI) and Cr (III) was determined as 2 and 5, respectively. The chromium ions adsorption behavior was well interpreted through the pseudo-second order kinetics model. Furthermore, isotherm studies were conducted, and the obtained results indicated that Langmuir isotherm model could well justify the chromium ions adsorption process. Quick removal (less than 10?min) of both chromium ions and high removal efficiency were occurred using nMFO. The utmost

    Investigation of Lead and Copper Removal from Synthetic Sewage Sludge of Sungun Copper Plant Using Hematite Adsorbent

    S Nobari, A Khodadadi Darban, A Jamshidi-Zanjani
    Journal Papers , Volume 4 , Issue 300788, 2019 January 1, {Pages 135-149 }

    Abstract

    There are several methods including physical, biological, and chemical procedures to remove heavy metals from water and wastewater. Adsorption is recognized as low cost and simple method with the high performance of heavy metals elimination from aqueous solution. Heavy metals removal by adsorption using iron oxides has always been a matter of interest due to the availability and low cost. In the present study, the feasibility of Pb and Cu removal from synthetic wastewater using hematite were investigated. Moreover, the effects of parameters including pH, dosage of adsorbent, dosage of contaminates, and removal time were studied. In this study, hematite was prepared using chemical precipitation method. The properties of the adsorbed compound

    ارزیابی دسترسی زیستی و انسانی در خاکهای سطحی معدن باما و روستای مجاور آن به روش استخراج تک مرحله ای

    ابوییان جهرمی, جمشیدی زنجانی, خدادادی دربان, شفیع زاده مقدم
    Journal Papersمهندسی عمران مدرس , Volume 18 , Issue 6, 2019 March 10, {Pages 15-26 }

    Abstract

    1 0≤ SE< 10 2 10≤ SE< 20 3 20≤ SE< 30 4 30≤ SE< 40 5 40≤ SE< 50 6 50≤ SE< 60 7 60≤ SE< 70 8 70≤ SE< 80 9 80≤ SE< 90 10 SE> 90 Table 1. Source effect (SE) categories

    Assessment of bioavailability and human bioaccessibility in surface soil at Bama Zinc-Lead mine, using single extraction methods

    Mohammad Abouian Jahromi, Ahmad Jamshid-Zanjani, Ahmad Khodadadi Darban, Hossein Shafeezadeh Moghadam
    Journal PapersModares Civil Engineering journal , Volume 18 , Issue 6, 2019 March 10, {Pages 15-26 }

    Abstract

    1 0≤ SE< 10 2 10≤ SE< 20 3 20≤ SE< 30 4 30≤ SE< 40 5 40≤ SE< 50 6 50≤ SE< 60 7 60≤ SE< 70 8 70≤ SE< 80 9 80≤ SE< 90 10 SE> 90 Table 1. Source effect (SE) categories

    حذف یون کروم شش ظرفیتی با جذب بر روی نانو ذرات فریت منگنز: مطالعه سینتیک و ترمودینامیک‎

    عیوضی, جمشیدی زنجانی, خدادادی دربان‎
    Journal Papers , , {Pages }

    Abstract

    Synthesis of magnetite nanoparticles from iron ore tailings using a novel reduction-precipitation method

    Esmaeel Darezereshki, Ahmad khodadadi Darban, Mahmoud Abdollahy, Ahmad Jamshidi
    Journal PapersJournal of Alloys and Compounds , Volume 749 , 2018 June 15, {Pages 336-343 }

    Abstract

    Magnetite nanoparticles successfully produced from a pregnant leach solution (PLS) of iron ore tailings via a simple reduction–precipitation method using Na 2 S 2 O 3? 5H 2 O reducing agent while the ratio of [Fe 3+] to [S 2 O 3 2−] were 3 and 2 in the presence and absence of nitrogen gas respectively. The produced nanoparticles were characterized by X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), scanning and transmission electron microscopy (SEM, TEM), Brunauer–Emmett–Teller (BET), and vibrating sample magnetometry (VSM). The achieved XRD and FTIR results confirmed the presence of Fe 3 O 4 nanoparticles while SEM and TEM images displayed that the formed nanoparticles were spherical with an average diameter

    Influence of heavy metals on the adsorption of arsenate by magnetite nanoparticles: Kinetics and thermodynamic

    Esmaeel Darezereshki, Ahmad khodadadi Darban, Mahmoud Abdollahy, Ahmad Jamshidi-Zanjani
    Journal PapersEnvironmental Nanotechnology, Monitoring & Management , Volume 10 , 2018 December 1, {Pages 51-62 }

    Abstract

    Magnetite nanoparticles were produced from iron ore tailings and used to remove arsenate ions from water. The produced spherical nanoparticles were 25?3 nm in diameter and had ferromagnetic properties as discovered by XRD, FTIR, TEM, and VSM analyses. The kinetic and equilibrium of the arsenate (As 5+) adsorption by the magnetite nanoparticles was investigated in the presence of Cu 2+, Zn 2+ and Mn 2+ at pH= 5.5 (> pH PZC= 3.8). Due to the high stability of CuH 2 AsO 4+, the adsorption of arsenate was more noticeably affected by the copper ions compared to the rest of the metal ions. Biphasic first-order, pseudo-second-order, and Langmuir kinetic models were applied to simulate the arsenate adsorption. The maximum adsorption (9.72 mg/g) occ

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    دروس نیمسال جاری

    • دكتري
      مديريت پسماند در ژئومكانيك ( واحد)
      دانشکده فنی و مهندسی، گروه مكانيك سنگ
    • كارشناسي ارشد
      ارزيابي زيست محيطي معادن و كارخانه ها فراوري معدني ( واحد)

    دروس نیمسال قبل

    • كارشناسي ارشد
      ژئوشيمي زيست محيطي ( واحد)
      دانشکده فنی و مهندسی، گروه مهندسي معدن و محيط زيست
    • 1399
      دهقان گلين قيه, فرشاد
      بررسي و امكان سنجي ساخت بتن با كارايي بسيار بالا از باطله سد رسوب گير مس سونگون
    • 1400
      اميدباد, مهدي
    • 1400
      نيكونژاد, مريم
    • 1399
      حاجي زاده درزه كناني, محمد
      مكانيزم و تاثير باطله فعال شده در ساخت بتن ژئوپليمري
      داده ای یافت نشد
      داده ای یافت نشد

    مهم

    جدید

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