Showing 8 results for Kord
F Kord Mostafapour, E Bazrafshan, H Kamani,
Volume 3, Issue 3 (4 2010)
Abstract
Backgrounds and Objectives:Arsenic is one of the most toxic and dangerous elements in drinking water that with increase in its application in agriculture, development of applications in agriculture, livestock, medicine, industry and other cases its entry to water resources and environment is much easier.Arsenic is a poisonous, cumulative substance and inhibitor of SH group enzymes and various studies revealed a significant correlation between high concentrations of arsenic in drinking water and liver cancer, nasal cavity cancer, lungs, skin, bladder and kidney cancer in men and women and prostate and liver in men. The aim of this was survey of arsenic removed from water using dissolved air floatation mechanism.
Materials and Methods: At present study in first step for determination best conditions of arsenic removal by dissolved air floatation method, optimum amount of coagulants determined and then synthetic solution of arsenic (50, 100 and 200 µg/L) prepared using sodium arsenate. In third step arsenic removal efficiency under various variables such as arsenic concentration, flocculation and floatation time and saturation pressure were analyzed. Finally residual arsenic concentration was determined by the silver diethyl dithiocarbamate method.
Results:Effect of optimum condition on arsenic removal efficiency at various initial concentration 50, 100 and 200 µg/Lshowed that the best coagulant for removal of arsenic is polyaluminumchloride. Also maximum efficiency (99.4%) was obtained in initial concentration equal 200 µg/L.
Conclusion: It can be concluded that dissolved air floatation method with poly aluminum chloride as coagulant have high efficiency for arsenic removal even at high concentrations and therefore this method can be used for removal of arsenic from water as a suitable and safe option.
Edris Bazrafshan, Ahmad Joneidi Jaafari, Ferdos Kord Mostafapour, Hamed Biglari,
Volume 5, Issue 2 (13 2012)
Abstract
MicrosoftInternetExplorer4
Background and Objectives: Presence of humic acids in
water resources is important because it is a precursor to disinfection
by-products (DBPs) and affects many treatment processes. In this study, we
investigated the performance of electrocoagulation process duad with hydrogen
peroxide (creating Fenton process) in removal of humic acids (HA) from aqueous
environment.
Materials and Methods: The experiments were performed using a 1 L bipolar batch reactor (covered with
the aluminum foil) equipped with iron electrodes and connected to electric
source having electrical potential 10 V in bipolar mode. First, reactor was
filled up using aqueous solution containing 20 mg/L HA. Later, several working
parameters, such as initial pH (3, 5, 7, and 8), electrical conductivity
produced from adding 1, 1.5, 2 and 3 g/l KCl and reaction time were studied to
achieve the highest humic acid removal capacity. To follow the progress of the
treatment, hydrogen peroxide (50 mg/l) was added to reactor and then samples of
10 ml were taken at 5, 15, 30, 45, and 60 min and then filtered (0.45 μ) to
eliminate sludge formed during electrolysis. Finally, humic acid and iron
concentration was measured using TOC analyzer and atomic absorption method
respectively.
Results: Results of
this study showed that the most effective removal capacities of humic acid
(97.19%) could be achieved when the pH was kept 5(KCl 3g/l and reaction time 60
min). The share of Fenton and electrocoagulation process was %7.9 and %92.1
respectively. In addition, our results indicated that the removal efficiency of
humic acid with increase of pH and electrical conductivity parameters decreases
and increases respectively.
Conclusion: It can be
concluded that the Fenton process duad with electrocoagulation process has the
potential to be utilized for cost-effective removal of humic acid from aqueous
environments.
Edris Bazrafshan, Ferdos Kord Mostafapour, Mahdi Farzadkia, Kamaledin Ownagh, Hossein Jaafari Mansurian,
Volume 5, Issue 3 (21 2012)
Abstract
Background and Objectives: Slaughterhouse wastewater contains various and high amounts of organic
matter (e.g., proteins, blood, fat, and lard). In order to produce an effluent
suitable for stream discharge, chemical coagulation and electrocoagulation
techniques have been particularly explored at the laboratory pilot scale for
organic compounds removal from slaughterhouse effluent. The purpose of this
work was to investigate the feasibility of treating cattle-slaughterhouse
wastewater by combined chemical coagulation and electrocoagulation process to
achieve the required standards.
Materials and Methods:
At present study, slaughterhouse wastewater after initial analysis was tested
for survey of coagulation process using Poly aluminum chloride (PAC) at various
doses (25-100 mg/L). Then we measured the concentrations of wastewater
pollutants (BOD5, COD, TKN, TSS and fecal Coliforms). Later, we transferred the
effluent to the electrocoagulation unit and we evaluated the removal efficiency
of pollutants in the range 10 to 40 volts of electric potential during 60 min.
Results: It was found
that the efficiency of chemical coagulation process using poly-aluminum
chloride (PAC) as coagulant increases with increasing doses (from 25 to 100
mg/L) we achieved maximum removal efficiency during the chemical coagulation
for parameters of BOD5, COD, TSS, and TKN at 100 mg/L of PAC equivalent to
44.78%, 58.52%, 59.9%, and 39.58% respectively. Moreover, the results showed
that with increasing the electric potential and reaction time, the yield
increases linearly so that maximum removal efficiency at a dose of 100 mg/L
PAC, an electrical potential of 40 volts and a reaction time of 60 minutes for
the parameters BOD5, COD, TSS, and TKN was 99.18% 99.25%, 82.55%,
and 93.97% respectively.
Conclusion: The
experiments demonstrated the effectiveness of combined chemical coagulation and
electrocoagulation processes for pollutants removal from the slaughterhouse
wastewaters. Consequently, this combined process can produce effluent
compliance with the effluent discharge standards.
H Kamani, Ah Panahi, Sd Ashrafi, F Kord Mostafapour, Ns Omrani Gargari,
Volume 10, Issue 3 (12-2017)
Abstract
Background and Objective: Extreme use of antibiotics and discharging to the environment lead to serious consequences. Mesoporous silica such as MCM-41 material is widely used to absorb contaminants from the aqueous solution. The aim of this study was to evaluate mesoporous synthesis of MCM-41 and its efficacy for removal of the antibiotic cephalexin from aqueous solution.
Materials and Methods: Physical characteristics and absorbent structure synthesized by techniques BET, FTIR and XRD were analyzed. The effect of variables such as pH values (3, 7, 11), the dose of MCM-41 (200, 500, 800 mg/L), initial concentration of cephalexin (50, 75, 100 mg/L), contact time (30, 60, 90 min), and process temperature (20, 30, 40 0C) on absorption of cephalexin were studied. In order to achieve the optimal experimental conditions, response surface methodology (RSM) model was used.
Results: The results showed that pH (p=0.0001), adsorbent dose (p=0.0001), initial concentration of cephalexin (p=0.0001), contact time (p=0.01), pH2 (p=0.0002) and pH (p=0.04) and initial concentration had a significant impact on the response variable. The optimum removal condition based on analysis of variance and the model was at the reaction time 90 min, pH 3, initial concentration 50 mg/L and adsorption dose 600 mg/L. Under these conditions, the removal efficiency of 81.1% was achieved.
Conclusion: The results showed that adsorption process with the mesoporous MCM-41 had a high efficiency on the removal of cephalexin from the aqueous environments.
M Moradi Baseri, H Kamani, Sd Ashrafi, E Bazrafshan, F Kord Mostafapour,
Volume 11, Issue 3 (12-2018)
Abstract
Background and Objective: Street dust is an important factor in urban pollution which consists of soil, particulate matters and heavy metals. At present, over half of the world’s population lives in urban areas. Therefore, this study aimed to investigate health risks of heavy metals in street dusts in Zahedan.
Materials and Methods: The samples of street dust were collected in Zahedan. After preparation, the samples, were injected to ICP-MS for determination the amount of Hg and Cu. According to the measured concentrations, Hazard quotient (HQ) and hazard index (HI) were calculated to evaluate the health risk assessment.
Results: Results showed that Hazard quotient for both Hg and Cu was less than 1 for children and adult. HQ for Hg and Cu was in order of HQingestion >HQdermal >HQinhalation> HQvapour for adults and HQvapour > HQingestion > HQdermal > HQinhalation for children. HI was also less than 1.
Conclusion: The value of HQ showed that inhalation of mercury vapor and ingestion were the main routes of exposure to Hg for children and adults. The non-carcinogenic risk was within the safe value (HI <1) in this study.
Kh Ghattavi, A Naji, S Kord,
Volume 12, Issue 1 (5-2019)
Abstract
Background and Objective: Marine pollution is growing due to human activities. Continuous increase in plastic production and poor management of plastic waste resulted in a significant increase of this contaminant in aquatic environments. This in turn led to the widespread presence of Microplastics (MPs) with a size of less than 5mm.
Materials and Methods: In this study, frequency, distribution, color and type of MPs in the gastrointestinal tract of fish in Oman Sea were investigated using random sampling, tissue digestion and flotation of MPs.
Results: The total number of the MPs found in the studied species was variable. The highest number of MPs were found in the species belonged to Rastrelliger kanagurta and Nemipterus japonicus (29%) and Saurida tumbil, Trichiurus lepturus and Paragaleus randalli (14%).
Conclusion: The forms mostly observed were belonged to microfibres (86%), fragment (11%) and pellet (3%). The most frequent colors that were detected were in a decreasing order blue, pink and black. The results demonstrated that the highest concentrations of MPs were observed in Ratrelliger kanagurta and Nemipterus japonicus species. The present study provides useful information for further research, and a background analysis to monitore the pollutants in the Oman Sea.
Azadeh Modiri, Shadab Shahsavari, Ali Vaziri Yazdi, Ali Akbar Seifkordi,
Volume 13, Issue 1 (4-2020)
Abstract
Background and Objective: Arsenic has long been considered as a heavy metal and toxic pollutant due to its potential to harm the human health and the environment. Adsorption is one of the mechanisms for arsenic removal from wastewater. Therefore, the purpose of this research was to investigate the feasibility of synthesized chitosan-zirconium magnetic nano fiber on arsenic adsorption from wastewater and to evaluate its kinetic and isotherm models.
Materials and Methods: Synthesis of nanofibers was performed by electrospinning method and the optimal formulation was determined following the experimental design. Then, kinetics and isotherms of arsenic adsorption on the as synthesized nanofibers were investigated. The prepared nanofiber was characterized using X-ray diffraction (XRD), Field Emission Scanning Electron Microscopes (FESEM), Infrared Fourier Transform (FT-IR) and Vibrational Sampler Magnetic Meter (VSM).
Results: The optimal formulation was obtained: 2.84% chitosan, 0.97% nano-zirconium and 0.94% nano-iron. The adsorption of arsenic on synthetic fibers was found to follow quasi-first-order kinetics and the Freundlich isotherm. Furthermore, the effect of initial concentrations of arsenic, contact time, temperature and pH on arsenic adsorption were surveyed. The optimal condition for nitrate arsenic adsorption was obtained at initial concentration of 70 mg/L, 45 min contact time and at pH 3.
Conclusion: According to the results, the synthesized nanofiber displayed a regular network structure with the distribution of the Zr-nanoparticles in its shape. Also, according to the form of magnetometric analysis, it was found that chitosan-nanosirconium magnetic nanofibers are well magnetized and are free magnetic. Finally, it can be concluded that the synthesized nanosorbent has a high potential for arsenic removal from industrial effluents.
Ebrahim Rahimi, Mohammad Amin Heidarzadi, Najmeh Vahad Dehkordi,
Volume 16, Issue 3 (12-2023)
Abstract
Background and Objective: Aflatoxins are secondary metabolites of fungi, which can have very dangerous consequences for human health in addition to spoiling food and changing organoleptic properties. Aflatoxin entering the body and targeting the liver as the main organ involved can cause liver and blood cancer. Hence, the aim of the present study is to measure aflatoxin B1 in corn flour and wheat flour supplied in Shahrekord using ELISA method in 2022.
Materials and Methods: In this study, 40 samples of flour, including 20 samples of corn flour and 20 samples of wheat flour, were randomly sampled from the supply centers and sent to the food hygiene laboratory to track and determine the amount of aflatoxin B1.
Results: The results showed that all samples of wheat flour and corn flour contained aflatoxin 1B. The average of aflatoxin B1 in wheat flour and corn flour was calculated as 2.58 ± 0.95 and 3.47 ± 2.07 (µg/kg) of the sample, respectively; Among the 20 examined samples of corn flour, the concentration of aflatoxin B1 ranged from 3.4 (µg/kg) to 1.9 (µg/kg) and in 20 samples of wheat flour (µg/kg) from 7.90 to (µg/kg) was 1.4; Therefore, the concentration of none of the samples was higher than the Iranian standard.
Conclusion: The occurrence of aflatoxin B1 in all the samples examined in the current study is lower than the risk range determined by the Iranian standard, so in this case, its aasociated high risk does not threaten the health of consumers.
