Your search keyword '"Khavanin, Ali"' showing total 12 results

1. A novel acoustic micro-perforated panel (MPP) based on sugarcane fibers and bagasse.

Author

Beheshti, Mohammad Hosein, Khavanin, Ali, Jafarizaveh, Mostafa, and Tabrizi, Akram

Published

2024

2. Effects of acute exposure to Al2O3-NPs (α and γ) and white noise and their combination on cochlea structure and function in Wistar rats.

Author

Shahtaheri, Seyed Jamaleddin, Goodarzi, Zahra, Karami, Esmaeil, Khavanin, Ali, Khansari, Mahmoud Ghazi, Kiani, Mehrafarin, and Rashidy-Pour, Ali

Subjects

WHITE noise, LABORATORY rats, COCHLEA, NOISE-induced deafness, GENE expression, ALUMINUM foam

Abstract

Hearing loss induced by noise and combinations of factors is a common occupational disease among workers. This study aimed to investigate the impact of acute exposure to white noise and Al2O3 NPs, alone and in combination, on changes in the hearing and structural functions of the cochlea in rats. Thirty-six rats were randomly assigned to one of six groups: Control, acute exposure to white noise, exposure to γ-Al2O3 NPs, exposure to noise plus γ-Al2O3 NPs, exposure to α-Al2O3 NPs, and exposure to the combination of noise plus α-Al2O3 NPs. TTS and PTS were examined using DPOAE, while oxidative index (MDA, GSH-Px), gene expression (NOX3, TGF-ß, CYP1A1), protein expression (ß-Tubulin, Myosin VII), and histopathological changes were examined in the cochlea. The morphology of Al2O3 NPs was examined by TEM. The results of the DPOAE test showed a significant increase in TTS in all groups and an increase in PTS in the groups exposed to noise, γ-Al2O3 NPs, and a combination of noise plus Al2O3 NPs (P < 0.05). In the group exposed to white noise plus Al2O3 NPs, the MDA levels increased, the level of GSH-Px decreased, and the expression percentage of ß-Tubulin and Myosin VII decreased, while the expression of NOX3, TGF-ß, and CYP1A1 (except for the α-Al2O3 NPs group) significantly increased (P < 0.05). Histopathological changes of the cochlea indicated damage to hair and ganglion cells, which was more severe in the combined exposure group. The combined and independent exposure to white noise and Al2O3 NPs damaged hair and ganglion cells for high-frequency perception, affecting the function and structure of the cochlea and leading to TTS and PTS. [ABSTRACT FROM AUTHOR]

Published

2023

3. Investigating the Mechanical, Morphological, and Acoustic Properties of the Phenolic Aerogel/Flexible Polyurethane Foam Composite.

Author

Hamamizadeh, Ehsan, Mahabadi, Hassan Asilian, and Khavanin, Ali

Subjects

URETHANE foam, AEROGELS, ABSORPTION of sound, ABSORPTION coefficients, YOUNG'S modulus, POROSITY, FOAM

Abstract

The present study investigated the effects of adding phenolic aerogel (PA) to flexible polyurethane foam on the sound absorption coefficient, morphology, and mechanical properties. PA was synthesized under solvent saturated vapor atmosphere, and then it was added to the polymer matrix in the form of particles with different weight percentages (i.e., 0.25, 0.50, and 0.75 wt%). The examination of the cell structure and the pores of the composite using electron microscopy showed that by increasing the concentration of PA, the number of open pores and the interconnection between the cells increased. The PA/flexible polyurethane foam composite PA / FPUF with 0.50 wt% of PA exhibited the highest sound absorption coefficient in the low-frequency range due to the regular cell structure and the small size of the cells. Moreover, the results showed that in addition to their impact on the morphology, PA particles could be useful in improving the mechanical properties of FPUF by increasing its Young's modulus. [ABSTRACT FROM AUTHOR]

Published

2022

4. Removal of sulfur dioxide from air using a packed-bed DBD plasma reactor (PBR) and in-plasma catalysis (IPC) hybrid system.

Author

Damyar, Niloofar, Khavanin, Ali, Jafari, Ahmad Jonidi, Mahabadi, Hassan Asilian, Mirzaei, Ramazan, Ghomi, Hamid, and Mousavi, Seyyed Mohammad

Subjects

DESULFURIZATION, SULFUR dioxide, HYBRID systems, AIR pollutants, CATALYSIS, ENERGY consumption

Abstract

Sulfur dioxide, a noxious air pollutant, can cause health and environmental effects, and its emissions should be controlled. Nonthermal plasma is one of the most effective technologies in this area. This study evaluated the efficiency of a packed-bed plasma reactor (PBR) and in-plasma catalysis (IPC) in SO2 removal process which were finally optimized and modeled by the use of the central composite design (CCD) approach. In this study, SO2 was diluted in zero air, and the NiCeMgAl catalyst was selected as the catalyst part of the IPC. The effect of three main factors and their interaction were studied. ANOVA results revealed that the best models for SO2 removal efficiency and energy yielding were the reduced cubic models. According to the results, both PBR and IPC reactors were significantly energy efficient compared with the nonpacked plasma reactor and had high SO2 removal efficiency which was at least twice larger than that of the nonpacked one. Based on the results, the efficiency of IPC was better than in PBR, but its performance decreased over time. However, the PBR had relatively high SO2 removal efficiency and energy efficiency compared to the nonpacked reactor, and its performance remained constant over the studied time. In optimization, the maximum SO2 removal efficiency and energy efficiency were 80.69% and 1.04 gr/kWh, respectively (at 1250 ppm, 2.5 L/min, and 18 kV as the optimum condition) obtained by the IPC system which were 1.5 and 1.24 times greater than PBR, respectively. Finally, the model's predictions showed good agreement with the experiments. [ABSTRACT FROM AUTHOR]

Published

2021

5. Energy efficiency improvement in nitric oxide reduction by packed DBD plasma: optimization and modeling using response surface methodology(RSM).

Author

Mansouri, Fariba, Khavanin, Ali, Jafari, Ahmad Jonidi, Asilian, Hasan, Ghomi, Hamid Reza, and Mousavi, Seyyed Mohammad

Subjects

ENERGY consumption, NITRIC oxide, DIELECTRIC materials, NUCLEAR reactor materials, GLASS beads, OXYGEN carriers

Abstract

The non-thermal plasma (NTP) is a superior proposed method for nitric oxide removal because of operation at atmospheric pressure and ambient temperature. The energy consumption is the main challenge of using this technology. The packed plasma reactor with dielectric materials has been extensively investigated; it has higher energy efficiency. In this study, the energy efficiency and the other effectiveness factors in nitric oxide removal by NTP reactor packed with ceramic and glass beads optimized and modeled using Response Surface Methodology. The findings showed the maximum energy efficiency was 132.69g/J in the optimal conditions of initial concentration, gas flowrate, and duty cycle(voltage) equal to 1050 ppm, 2.5 L/min, and 9%(22KV), respectively in the packed reactor with ceramic beads by 1.7 times than the empty reactor. It is concluded that the use of ceramic beads as a dielectric material in the discharge space significantly increased energy efficiency in the removal of nitric oxide. [ABSTRACT FROM AUTHOR]

Published

2020

6. Effects of noise on mental performance and annoyance considering task difficulty level and tone components of noise.

Author

Jafari, Mohammad Javad, Sadeghian, Marzieh, Khavanin, Ali, Khodakarim, Soheila, and Jafarpisheh, Amir Salar

Subjects

LOUDNESS, LEVEL of difficulty, NOISE pollution, ARTIFICIAL neural networks, DISCONTENT, NOISE

Abstract

Rotating components in mechanical systems produce tonal noises and the presence of these tones effect the quality and comfort of occupants leading to annoyance and a decrease in mental performance. The ISO 1996-2 and ANSI S1.13 standards have described metrics to quantify the effects of prominent tones, but more research on how noise attributes effect annoyance and performance, especially in different levels of task difficulty are necessary. This paper investigates relations between noise metrics, annoyance responses and mental performance under different task difficulty levels while exposed to background noise with tonal components. In this study, sixty participants were evaluated on subjective perceived annoyance and varying workloads while exposed to 18 noise signals with three different prominence tones at three frequency tones and two background noise levels while doing three different levels of n-back tasks in a controlled test chamber. Performance parameters were measured by recording the reaction time, the correct rate, and the number of misses. The results indicate an increasing trend for number of misses and reaction times at higher task difficulty levels, but a decrease for correct rate. The study results showed a significant difference for subjective responses except for annoyance and loudness under different levels of task difficulty. The participants were more annoyed with higher background noise levels, lower tone frequencies and increasing tone levels especially under increasing task difficulty. Loudness metrics highly correlate with other noise metrics. Three models for the prediction of perceived annoyance are presented based on the most strongly correlated noise metrics using neural network models. Each of the three models had different input parameters and different network structures. The accuracy and MSE of all three neural network models show it to be appropriate for predicting perceived annoyance. The results show the effect of tonal noise on annoyance and mental performance especially in different levels of task difficulty. The results also suggest that neural network models have high accuracy and efficiency, and can be used to predict noise annoyance. Model 1 is preferred in certain aspects, such as lower input parameters, making it more user-friendly. The best neural network model included both loudness metrics and tonality metrics. It seems that combined metrics have the least importance and are unnecessary in the proposed neural network model. [ABSTRACT FROM AUTHOR]

Published

2019

7. High photocatalytic decomposition of the air pollutant formaldehyde using nano-ZnO on bone char.

Author

Rezaee, Abbas, Rangkooy, Hossinali, Khavanin, Ali, and Jafari, Ahmad

Subjects

AIR pollution, FORMALDEHYDE, NANOPARTICLES, LUNG cancer, ZINC oxide

Abstract

Air pollution is a major issue leading to many serious illnesses. Exposure to formaldehyde may occur by breathing contaminated indoor air, tobacco smoke, or ambient urban air. Exposure to formaldehyde has been associated with lung and nasopharyngeal cancer. Therefore, there is a need for methods to degrade formaldehyde. Here, we studied the photocatalytic decomposition of gaseous formaldehyde over nanosized ZnO particles on bone char. The conditions were UV/bone char, UV/ZnO nanoparticles, and UV/ZnO-bone char in continuous flow mode. We investigated the effects of humidity, initial formaldehyde concentration, and residence time on decomposition of formaldehyde. Agglomeration of ZnO particles in the bone char pores was characterized by Brunauer, Emmett, and Teller surface area, and scanning electron micrograph. Results show that maximum decomposition efficiency of formaldehyde was 73 %. The optimal relative humidity was by 35 %. Findings also indicated that immobilization of ZnO nanoparticles on bone char has a synergetic action on photocatalytic degradation. This is explained by the strong adsorption of formaldehyde molecules on bone char, resulting in higher diffusion to the catalytic ZnO and thus a higher rate of photocatalysis. [ABSTRACT FROM AUTHOR]

Published

2014

8. Effects of whole body vibration on outer hair cells' hearing response to distortion product otoacoustic emissions.

Author

Moussavi-Najarkola, Seyyed-Ali, Khavanin, Ali, Mirzaei, Ramazan, Salehnia, Mojdeh, and Akbari, Mehdi

Abstract

Whole body vibration (WBV) is one of the most vexing problems in industries. There is a debate about the effect of WBV exposure on hearing system as vibration-induced hearing loss. The purpose of this study was to investigate outer hair cells' (OHCs') hearing response hearing response to distortion product otoacoustic emissions (DPOAEs) in rabbits exposed to WBV. It was hypothesized that the DPOAE response amplitudes ( A) in rabbits exposed to WBV would be lower than those in control rabbits not exposed to WBV. New Zealand white (NZW) rabbits as vibration group ( n = 6, exposed to WBV in the z-axis at 4-8 Hz and 1.0 ms root mean square for 8 h per day during five consecutive days) and NZW rabbits as control group ( n = 6, not exposed to any WBV) were participated. A and noise floor levels ( L) were examined on three occasions: day 0 (i.e., baseline), day 8 (i.e., immediately 1 h after exposure), and day 11 (i.e., 72 h following exposure) with f frequencies ranging from 500 to 10,000 Hz and primaries L and L levels of 65 and 55 dB sound pressure level, respectively. Main effects were statistically found to be significant for group, time, and frequency ( p < 0.05). DPOAE amplitudes were significantly larger for rabbits exposed to WBV, larger on day 8 and larger for mid to high f frequencies (at and above 5,888.50 Hz). Main effects were not statistically found to be significant for ear ( p > 0.05). Also, four statistically significant interactions including time by ear, time by frequency, group by frequency, and group by time were detected ( p < 0.05). Contrary to the main hypothesis, DPOAE amplitudes were significantly larger for rabbits exposed to WBV. WBV exposure significantly led to enhanced mean A at mid to high frequencies rather than at low ones. [ABSTRACT FROM AUTHOR]

Published

2012

9. Heterotrophic Biological Denitrification Using Microbial Cellulose as Carbon Source.

Author

Godini, Hatam, Rezaee, Abbas, Khavanin, Ali, Ahmadabadi, Afshin Nili, Rastegar, Sayedomid, and Hossini, Hooshyar

Subjects

DENITRIFICATION, CELLULOSE, ACETOBACTER xylinum, BIOPOLYMERS, NITRATES, NITRITES

Abstract

The objective of this study was to investigate the feasibility of using a microbial biopolymer produced by Acetobacter xylinum as a carbon source for heterotrophic biological denitrification. The denitrification rate, COD availability and nitrite concentration were response parameters. Under the experimental conditions, a denitrification rate of about 0.74 kg NON/md at 6 h retention time was achieved with microbial cellulose (MC). The reactor effluent contained significantly COD concentrations (20-86 mg/L) so it was not carbon limited, and was receiving enough carbon to facilitate the denitrification process. The maximum nitrite concentration in the effluent was found to be 0.4 mg/L. However, decreasing the retention time to 3 h significantly reduced the efficiency. It can be concluded that the MC is a suitable carbon source for nitrate removal in a heterotrophic biological denitrification process. [ABSTRACT FROM AUTHOR]

Published

2011

10. Correction to: Effects of noise on mental performance and annoyance considering task difficulty level and tone components of noise.

Author

Jafari, Mohammad Javad, Sadeghian, Marzieh, Khavanin, Ali, Khodakarim, Soheila, and Jafarpisheh, Amir Salar

Subjects

LEVEL of difficulty, DISCONTENT, NOISE, PERSONAL names

Abstract

The correct first names and last names are "Mohammad Javad Jafari", "Marzieh Sadeghian", "Ali Khavanin", "Soheila Khodakarim", "Amir Salar Jafarpisheh". [ABSTRACT FROM AUTHOR]

Published

2019

11. Assessment of the influence of whole body vibration on Cochlear function

Author

Moussavi-Najarkola Seyyed-Ali, Khavanin Ali, Mirzaei Ramazan, Salehnia Mojdeh, and Akbari Mehdi

Subjects

lcsh:RC963-969, Rabbit's hearing, Distortion product otoacoustic emissions, Research, lcsh:Industrial medicine. Industrial hygiene, otorhinolaryngologic diseases, Public Health, Environmental and Occupational Health, DPOAEs, Cochlear function, sense organs, Toxicology, Safety Research, Whole body vibration

Abstract

Background Whole body vibration (WBV) is a potentially harmful consequence resulting from the dissipation of energy by industrial machineries. The result of WBV exposure on the auditory system remains unknown. The objective of the present research was to evaluate the influence of WBV on cochlear function, in particular outer hair cell function. It is hypothesized that WBV impairs cochlear function resulting in decreased Distortion Product Otoacoustic Emission (DPOAE) levels (Ldp) in rabbits subjected to WBV. Methods Twelve rabbits were equally divided into vibration and control groups. Animals in vibration group were exposed to 1.0 ms-2 r.m.s vertical WBV at 4–8 Hz for 8 h/day during 5 consecutive days. Outer hair cell function was assessed by comparing repeated-measurements of DPOAE levels (Ldp) across a range of f2 frequencies in rabbits both exposed and unexposed to WBV. DPOAE level shifts (LSdp) were compared across ears, frequencies, groups, and times. Results No differences were seen over time in DPOAE levels in the non-exposed rabbits (p = 0.082). Post-exposure Ldp in rabbits exposed to WBV were significantly increased at all test frequencies in both ears compared to baseline measures (p = 0.021). The greatest increase in Ldp following exposure was seen at 5888.5 Hz (mean shift = 13.25 dB). Post-exposure Ldp in rabbits exposed to WBV were not significantly different between the right and left ears (p = 0.083). Conclusion WBV impairs cochlear function resulting in increased DPOAE responses in rabbits exposed to WBV. DPOAE level shifts occurred over a wide range of frequencies following prolonged WBV in rabbits.

12. Improving the performance of double-expansion chamber muffler using dielectric beads; optimization using factorial design.

Author

Damyar, Niloofar, Mansouri, Fariba, Khavanin, Ali, Jafari, Ahmad Jonidi, Asilian, Hasan, and Mirzaei, Ramazan

Abstract

Purpose: Noise pollution is a common health hazard worldwide which is emitted along with chemical air pollutants, simultaneously from many sources. Some studies have been conducted to control these pollutants, simultaneously with promising results being achieved. Dielectric beads have been used in air pollution control technologies, successfully and probable effectiveness of them in noise reduction can be promising in dual use of them in the exhausts emitting noise and air pollution, simultaneously.In order to investigate the effectiveness of dielectric beads in noise reduction, two types of them; namely glass and ceramic beads, were placed separately inside the connecting tube of a double-expansion chamber muffler. Then the transmission loss (TL) of muffler was examined using impedance tube. A factorial design was used to evaluate and optimize the effect of noise related parameters on TL of such a system.Results show that the presence of dielectric beads has significant effect on TL of muffler. The maximum TL was obtained as 74.76 dB for muffler with ceramic beads, under the optimal condition of 5250 Hz and 120 dB. Measurement of TL and sound absorption coefficient (SAC) of glass and ceramic beads showed that the noise reduction in muffler with ceramic and glass beads is probably due to SAC in ceramic beads and noise reflections in glass beads, respectively.These results promise the dual use of dielectric beads in the exhausts emitting noise and air pollution simultaneously.Methods: Noise pollution is a common health hazard worldwide which is emitted along with chemical air pollutants, simultaneously from many sources. Some studies have been conducted to control these pollutants, simultaneously with promising results being achieved. Dielectric beads have been used in air pollution control technologies, successfully and probable effectiveness of them in noise reduction can be promising in dual use of them in the exhausts emitting noise and air pollution, simultaneously.In order to investigate the effectiveness of dielectric beads in noise reduction, two types of them; namely glass and ceramic beads, were placed separately inside the connecting tube of a double-expansion chamber muffler. Then the transmission loss (TL) of muffler was examined using impedance tube. A factorial design was used to evaluate and optimize the effect of noise related parameters on TL of such a system.Results show that the presence of dielectric beads has significant effect on TL of muffler. The maximum TL was obtained as 74.76 dB for muffler with ceramic beads, under the optimal condition of 5250 Hz and 120 dB. Measurement of TL and sound absorption coefficient (SAC) of glass and ceramic beads showed that the noise reduction in muffler with ceramic and glass beads is probably due to SAC in ceramic beads and noise reflections in glass beads, respectively.These results promise the dual use of dielectric beads in the exhausts emitting noise and air pollution simultaneously.Results: Noise pollution is a common health hazard worldwide which is emitted along with chemical air pollutants, simultaneously from many sources. Some studies have been conducted to control these pollutants, simultaneously with promising results being achieved. Dielectric beads have been used in air pollution control technologies, successfully and probable effectiveness of them in noise reduction can be promising in dual use of them in the exhausts emitting noise and air pollution, simultaneously.In order to investigate the effectiveness of dielectric beads in noise reduction, two types of them; namely glass and ceramic beads, were placed separately inside the connecting tube of a double-expansion chamber muffler. Then the transmission loss (TL) of muffler was examined using impedance tube. A factorial design was used to evaluate and optimize the effect of noise related parameters on TL of such a system.Results show that the presence of dielectric beads has significant effect on TL of muffler. The maximum TL was obtained as 74.76 dB for muffler with ceramic beads, under the optimal condition of 5250 Hz and 120 dB. Measurement of TL and sound absorption coefficient (SAC) of glass and ceramic beads showed that the noise reduction in muffler with ceramic and glass beads is probably due to SAC in ceramic beads and noise reflections in glass beads, respectively.These results promise the dual use of dielectric beads in the exhausts emitting noise and air pollution simultaneously.Conclusion: Noise pollution is a common health hazard worldwide which is emitted along with chemical air pollutants, simultaneously from many sources. Some studies have been conducted to control these pollutants, simultaneously with promising results being achieved. Dielectric beads have been used in air pollution control technologies, successfully and probable effectiveness of them in noise reduction can be promising in dual use of them in the exhausts emitting noise and air pollution, simultaneously.In order to investigate the effectiveness of dielectric beads in noise reduction, two types of them; namely glass and ceramic beads, were placed separately inside the connecting tube of a double-expansion chamber muffler. Then the transmission loss (TL) of muffler was examined using impedance tube. A factorial design was used to evaluate and optimize the effect of noise related parameters on TL of such a system.Results show that the presence of dielectric beads has significant effect on TL of muffler. The maximum TL was obtained as 74.76 dB for muffler with ceramic beads, under the optimal condition of 5250 Hz and 120 dB. Measurement of TL and sound absorption coefficient (SAC) of glass and ceramic beads showed that the noise reduction in muffler with ceramic and glass beads is probably due to SAC in ceramic beads and noise reflections in glass beads, respectively.These results promise the dual use of dielectric beads in the exhausts emitting noise and air pollution simultaneously. [ABSTRACT FROM AUTHOR]

Published

2021