Your search keyword '"H. Fashandi"' showing total 20 results

1. A new rotation invariant similarity measure for trajectories.

Author

H. Fashandi and Amir-Masoud Eftekhari-Moghadam

Published

2005

2. Face Detection Using CMAC Neural Network.

Author

H. Fashandi and Mohammad Shahram Moin

Published

2004

3. Anteroposterior view of the knee does not reliably replace the lateral view during evaluation of femoral torsion: a case series

Author

Wendy M. Novicoff, Ahmad H. Fashandi, Michael M. Hadeed, and Seth R. Yarboro

Subjects

Orthodontics, Series (mathematics), business.industry, Femoral torsion, Lateral view, Medicine, Orthopedics and Sports Medicine, business

Published

2020

4. Malunions of the Hand and Wrist

Author

Aaron M. Freilich, Matthew L. Lyons, and Ahmad H. Fashandi

Subjects

body regions, Orthodontics, medicine.anatomical_structure, business.industry, Normal function, Medicine, Malunion, Tendon rupture, Wrist, Phalanx, business, medicine.disease

Abstract

Malunions of the hand and wrist can result in complicated deformities with subsequent functional difficulties. The complexity of the hand and the requirement for such large arcs of motion for normal function can complicate the evaluation and treatment of these problems. Ultimately each bone malunion is evaluated with an eye toward improving overall pain and function as well as decreasing the likelihood of late complications such as tendon rupture and arthritis. In this chapter, we address several of these unique scenarios as well as the techniques and challenges in treating these complicated problems. Phalanx, metacarpal, carpal, and distal radius malunions are all addressed.

Published

2020

5. Trends in the Management of Intertrochanteric Femur Fractures in the United States 2005-2011

Author

Seth R. Yarboro, F. Winston Gwathmey, Ahmad H. Fashandi, and Brian C. Werner

Subjects

Male, medicine.medical_specialty, Blood transfusion, medicine.medical_treatment, Bone Screws, Bone Nails, law.invention, Intramedullary rod, Fracture Fixation, Internal, law, Epidemiology, medicine, Humans, Orthopedics and Sports Medicine, Femur, Aged, Retrospective Studies, Aged, 80 and over, Hip Fractures, business.industry, Incidence (epidemiology), Mortality rate, United States, Surgery, Respiratory failure, Current Procedural Terminology, Female, business

Abstract

Objectives In the last 2 decades, surgical treatment of intertrochanteric (IT) femur fractures has shown a continuing trend towards the increased use of intramedullary nails (IMN) and decreased use of sliding hip screws (SHS). Recent trends in the United States regarding the use of these implants, including charges and reimbursement, have not been investigated. Methods A national database of Medicare patients (PearlDiver, Inc.) was queried using Current Procedural Terminology (CPT) codes for patients with surgical dates from 2005-2011. Results A total of 34,759 SHS or IMN procedures for intertrochanteric femur fractures were identified from 2005-2011. There was a significant increase in the percentage of IMN compared to SHS, from 46.9% IMN in 2005 to 79.1% in 2011. The average charges for IMN and SHS increased. Statistically higher rates of PE (pConclusions The previously recognised trend of increasing use of IMN for IT femur fractures has continued. The overall incidence of operative IT femur fractures is not increasing at this time. The cost of IMN remains higher than SHS.

Published

2015

6. Ti

Author

H, Fashandi, C-C, Lai, M, Dahlqvist, J, Lu, J, Rosen, L, Hultman, G, Greczynski, M, Andersson, A, Lloyd Spetz, and P, Eklund

Abstract

Incorporation of layers of noble metals in non-van der Waals layered materials may be used to form novel layered compounds. Recently, we demonstrated a high-temperature-induced exchange process of Au with Si in the layered phase Ti

Published

2017

7. Contributors

Author

M. Abbasipour, M. Afshari, L. Arnold, R. Bagherzadeh, N. Bhattarai, M. Cernik, T. Chae, H. Fashandi, H. Fong, Y. Ge, M. Gorji, S. Jasper, J. Jirsák, T. Kärki, R. Khajavi, F. Ko, X. Ma, F. Moučka, R. Nayak, I. Nezbeda, S. Ojha, R. Padhye, N. Patra, Y. Qi, X. Qin, S. Ramakrishna, C. Salas, M. Salerno, N. Saveh-Shemshaki, D. Semnani, K. Song, M.S. Sorayani Bafgi, R.K. Srivastava, S. Subianto, Z. Thompson, Z. Wang, W. Wu, Q. Wu, T. Xu, M. Yousefzadeh, H. Yuan, Y. Zhang, X. Zhang, Y. Zhao, Q. Zhou, and J. Zhu

Published

2017

8. Effect of Obesity on Complication Rate After Elbow Arthroscopy in a Medicare Population

Author

A. Bobby Chhabra, Brian C. Werner, Ahmad H. Fashandi, and D. Nicole Deal

Subjects

Male, Reoperation, medicine.medical_specialty, Medicare, Body Mass Index, 03 medical and health sciences, Arthroscopy, 0302 clinical medicine, Postoperative Complications, Elbow Joint, Odds Ratio, Medicine, Humans, Orthopedics and Sports Medicine, Aged, Retrospective Studies, Aged, 80 and over, 030222 orthopedics, Elbow fracture, business.industry, Incidence (epidemiology), Incidence, 030229 sport sciences, Odds ratio, Nerve injury, medicine.disease, Obesity, United States, Surgery, Obesity, Morbid, Medicare population, Current Procedural Terminology, Female, medicine.symptom, Joint Diseases, business, Body mass index

Abstract

To use a national insurance database to explore the association of obesity with the incidence of complications after elbow arthroscopy in a Medicare population.Using Current Procedural Terminology (CPT) and International Classification of Diseases, 9th Revision (ICD-9) procedure codes, we queried the PearlDiver database for patients undergoing elbow arthroscopy. Patients were divided into obese (body mass index [BMI]30) and nonobese (BMI30) cohorts using ICD-9 codes for BMI and obesity. Nonobese patients were matched to obese patients based on age, sex, tobacco use, diabetes, and rheumatoid arthritis. Postoperative complications were assessed with ICD-9 and Current Procedural Terminology codes, including infection, nerve injury, stiffness, and medical complications.A total of 2,785 Medicare patients who underwent elbow arthroscopy were identified from 2005 to 2012; 628 patients (22.5%) were coded as obese or morbidly obese, and 628 matched nonobese patients formed the control group. There were no differences between the obese patients and matched control nonobese patients regarding type of elbow arthroscopy, previous elbow fracture or previous elbow arthroscopy. Obese patients had greater rates of all assessed complications, including infection (odds ratio [OR] 2.8, P = .037), nerve injury (OR 5.4, P = .001), stiffness (OR 1.9, P = .016) and medical complications (OR 6.9, P.0001).Obesity is associated with significantly increased rates of all assessed complications after elbow arthroscopy in a Medicare population, including infection, nerve injury, stiffness, and medical complications.Therapeutic Level III, case-control study.

Published

2015

9. An image mining approach for clustering traffic behaviors based on knowledge discovery of image databases

Author

H. Fashandi and A.M. Eftekhari-Moghadam

Subjects

Fuzzy rule, Association rule learning, Database, Computer science, business.industry, Pattern recognition, Similarity measure, computer.software_genre, Automatic summarization, Fuzzy logic, Knowledge extraction, Artificial intelligence, Data mining, Cluster analysis, business, computer, Natural language

Abstract

With this rapid increase in generating and collecting images, image mining and knowledge discovery attract so much attention. In this paper, we present a framework for extracting knowledge from sequence of images in the form of natural languages. In another view point, this process summarizes the enormous visual information of sequence of images into some simple and small sentences with the aim of automatic traffic regulations checking. Sequences of images have been manually extracted from a video of moving vehicles in cities. The structure of the system composed of Image Analysis and Knowledge Processing modules. Image Analysis module works on raw images and tries to extract a set of records consisting of spatial-temporal characteristics of moving objects in the scene. These records are passed to knowledge processing phase for further processing, information transformation and summarization. Knowledge processing phase consists of two modules: Trajectory Detection and Fuzzy Rule base. A new similarity measure based on Longest Common Subsequence (LCS) is proposed and used in trajectory detection module. This module tries to form traffic behavioral classes. In fuzzy Rule Base module, traffic regulations have been modeled using fuzzy rules and fuzzy inference used for checking normality/abnormality of the actions in the scene. The output of the system in the form of Natural Languages clearly shows what happened in the scene.

Published

2005

10. Influence of photothermal nanomaterials localization within the electrospun membrane structure on purification of saline oily wastewater based on photothermal vacuum membrane distillation.

Author

Ghodsi A and Fashandi H

Subjects

Vacuum, Graphite chemistry, Nanostructures chemistry, Distillation methods, Wastewater chemistry, Membranes, Artificial, Water Purification methods

Abstract

Today, synergistic combination of special nanomaterials (NMs) and electrospinning technique has emerged as a promising strategy to address both water scarcity and energy concerns through the development of photothermal membranes for wastewater purification and desalination. This work was organized to provide a new perspective on membrane design for photothermal vacuum membrane distillation (PVMD) through optimizing membrane performance by varying the localization of photothermal NMs. Poly(vinylidene fluoride) omniphobic photothermal membranes were prepared by localizing graphene oxide nanosheets (GO NSh) (1) on the surface (0.2 wt%), (2) within the nanofibers structure (10 wt%) or (3) in both positions. Considering the case 1, after 7 min exposure to the 1 sun intensity light, the highest temperature (∼93.5 °C) was recorded, which is assigned to the accessibility of GO NSh upon light exposure. The case 3 yielded to a small reduction in surface temperature (∼90.4 °C) compared to the case 1, indicating no need to localize NMs within the nanofibers structure when they are localized on the surface. The other extreme belonged to the case 2 with the lowest temperature of ∼71.3 °C, which is consistent with the less accessibility of GO NSh during irradiation. It was demonstrated that the accessibility of photothermal NMs plays more pronounced role in the membrane surface temperature compared to the light trapping. However, benefiting from higher surface temperature during PVMD due to enhanced accessibility of photothermal NMs is balanced out by decrease in the permeate flux (case 1: 1.51 kg/m 2 h and case 2: 1.83 kg/m 2 h) due to blocking some membrane surface pores by the binder. A trend similar to that for flux was also followed by the efficiency. Additionally, no change in rejection was observed for different GO NSh localizations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

11. Dual Functional Antibacterial-Antioxidant Core/Shell Alginate/Poly(ε-caprolactone) Nanofiber Membrane: A Potential Wound Dressing.

Author

Norouzi MR, Ghasemi-Mobarakeh L, Itel F, Schoeller J, Fashandi H, Fortunato G, and Rossi RM

Abstract

Core/shell nanofibers offer the advantage of encapsulating multiple drugs with different hydrophilicity in the core and shell, thus allowing for the controlled release of pharmaceutic agents. Specifically, the burst release of hydrophilic drugs from such fiber membranes causes an instantaneous high drug concentration, whereas a long and steady release is usually desired. Herein, we tackle the problem of the initial burst release by the generation of core/shell nanofibers with the hydrophilic antibiotic drug gentamycin loaded within a hydrophilic alginate core surrounded by a hydrophobic shell of poly(ε-caprolactone). Emulsion electrospinning was used as the nanofibrous mesh generation procedure. This process also allows for the loading of a hydrophobic compound, where we selected a natural antioxidant molecule, betulin (BTL), to detoxify the radicals. The resulting nanofibers exhibited a cylindrical shape with a core/shell structure. In vitro tests showed a controlled release of gentamicin from nanofibers via diffusion. The drug reached 93% release in an alginate hydrogel film but only 50% release in the nanofibers, suggesting its potential to minimize the initial burst release. Antibacterial tests revealed significant activity against both Gram-negative and Gram-positive bacteria. The antioxidant property of betulin was confirmed through the DPPH assay, where the incorporation of 20% BTL revealed 37.3% DPPH scavenging. The nanofibers also exhibited favorable biocompatibility in cell culture studies, and no harmful effects on cell viability were observed. Overall, this research offers a promising approach to producing core/shell nanofibrous mats with antibacterial and antioxidant properties, which could effectively address the requirements of wound dressings, including infection prevention and wound healing acceleration., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

12. Emulsion electrospinning of sodium alginate/poly(ε-caprolactone) core/shell nanofibers for biomedical applications.

Author

Norouzi MR, Ghasemi-Mobarakeh L, Itel F, Schoeller J, Fashandi H, Borzi A, Neels A, Fortunato G, and Rossi RM

Abstract

Electrospun nanofibers have shown great potential as drug vehicles and tissue engineering scaffolds. However, the successful encapsulation of multiple hydrophilic/hydrophobic therapeutic compounds is still challenging. Herein, sodium alginate/poly(ε-caprolactone) core/shell nanofibers were fabricated via water-in-oil emulsion electrospinning. The sodium alginate concentration, water-to-oil ratio, and surfactant concentration were optimized for the maximum stability of the emulsion. The results demonstrated that an increasing water-to-oil ratio results in more deviation from Newtonian fluid and leads to a broader distribution of the fibers' diameters. Moreover, increasing poly(ε-caprolactone) concentration increases loss and storage moduli and increases the diameter of the resulting fibers. The nanofibers' characteristics were investigated by scanning electron microscopy, transmission electron microscopy, confocal laser scanning microscopy, Fourier transform infrared spectroscopy, X-ray diffraction, and water contact angle measurements. It was observed that using an emulsion composition of 10% (w/v) PCL and a water-to-oil ratio of 0.1 results in smooth, cylindrical, and uniform core/shell nanofibers with PCL in the shell and ALG in the core. The in vitro cell culture study demonstrated the favorable biocompatibility of nanofibers. Overall, this study provides a promising and trustworthy material for biomedical applications., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2022

13. Improved performance of Bis-GMA dental composites reinforced with surface-modified PAN nanofibers.

Author

Amiri P, Talebi Z, Semnani D, Bagheri R, and Fashandi H

Subjects

Acrylic Resins, Compressive Strength, Elastic Modulus, Methacrylates, Polyethylene Glycols, Polymerization, Polymers chemistry, Polymethacrylic Acids, Polyurethanes chemistry, Powders, Stress, Mechanical, Surface Properties, Bisphenol A-Glycidyl Methacrylate chemistry, Composite Resins chemistry, Nanofibers chemistry

Abstract

In the present work, polyacrylonitrile (PAN) nanofibers reinforced dental composites were investigated to achieve the improved interfacial adhesion between the PAN nanofiber and resin matrix using surface modification of nanofibers. PAN nanofibers mat were prepared by electrospinning and then, surface treated with the activated bisphenol A glycidyl methacrylate (Bis-GMA)/triethyleneglycol dimethacrylate (TEGDMA) (50/50 mass ratio) dental resin followed by photo-curing. Also, the treated nanofibers mat was milled into a powder to achieve the uniform distribution of nanofibers in the matrix resin. The reinforced dental composite were prepared by mixing the various mass fraction of the powder (0.5-15 wt%) with the Bis-GMA/TEGDMA dental monomers. The effect of weight ratio of surface-modified nanofibers to blend resin on the chemical structure, morphology, compression and flexural properties, color and polymerization shrinkage of dental composites was evaluated. The results showed that using surface-treated nanofibers with content of 5 wt% enhanced the compression strength, flexural strength, flexural modulus and work of rupture of the resultant dental composite by factors of 23%, 7%, 80%, and 145%, respectively, comparing to the unreinforced neat resin. Also, the polymerization shrinkage reduces by 37%. These significant improved properties of the dental composite could be due to the semi-interpenetration network formation between surface-modified nanofibers and resin matrix and well distribution of nanofibers in the dental resin. Further increasing the nanofiber content led to poor mechanical properties of obtained dental composites. The results also, revealed that the color of resin composite could be whiter using modified PAN nanofibers as the filler.

Published

2021

14. An investigation of the effect of fat suppression and dimensionality on the accuracy of breast MRI segmentation using U-nets.

Author

Fashandi H, Kuling G, Lu Y, Wu H, and Martel AL

Subjects

Female, Humans, Adipose Tissue diagnostic imaging, Algorithms, Breast diagnostic imaging, Breast Density, Breast Neoplasms diagnostic imaging, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Neural Networks, Computer

Abstract

Purpose: Accurate segmentation of the breast is required for breast density estimation and the assessment of background parenchymal enhancement, both of which have been shown to be related to breast cancer risk. The MRI breast segmentation task is challenging, and recent work has demonstrated that convolutional neural networks perform well for this task. In this study, we have investigated the performance of several two-dimensional (2D) U-Net and three-dimensional (3D) U-Net configurations using both fat-suppressed and nonfat-suppressed images. We have also assessed the effect of changing the number and quality of the ground truth segmentations., Materials and Methods: We designed eight studies to investigate the effect of input types and the dimensionality of the U-Net operations for the breast MRI segmentation. Our training data contained 70 whole breast volumes of T1-weighted sequences without fat suppression (WOFS) and with fat suppression (FS). For each subject, we registered the WOFS and FS volumes together before manually segmenting the breast to generate ground truth. We compared four different input types to the U-nets: WOFS, FS, MIXED (WOFS and FS images treated as separate samples), and MULTI (WOFS and FS images combined into a single multichannel image). We trained 2D U-Nets and 3D U-Nets with these data, which resulted in our eight studies (2D-WOFS, 3D-WOFS, 2D-FS, 3D-FS, 2D-MIXED, 3D-MIXED, 2D-MULTI, and 3D-MULT). For each of these studies, we performed a systematic grid search to tune the hyperparameters of the U-Nets. A separate validation set with 15 whole breast volumes was used for hyperparameter tuning. We performed Kruskal-Walis test on the results of our hyperparameter tuning and did not find a statistically significant difference in the ten top models of each study. For this reason, we chose the best model as the model with the highest mean dice similarity coefficient (DSC) value on the validation set. The reported test results are the results of the top model of each study on our test set which contained 19 whole breast volumes annotated by three readers fused with the STAPLE algorithm. We also investigated the effect of the quality of the training annotations and the number of training samples for this task., Results: The study with the highest average DSC result was 3D-MULTI with 0.96 ± 0.02. The second highest average is 2D WOFS (0.96 ± 0.03), and the third is 2D MULTI (0.96 ± 0.03). We performed the Kruskal-Wallis one-way ANOVA test with Dunn's multiple comparison tests using Bonferroni P-value correction on the results of the selected model of each study and found that 3D-MULTI, 2D-MULTI, 3D-WOFS, 2D-WOFS, 2D-FS, and 3D-FS were not statistically different in their distributions, which indicates that comparable results could be obtained in fat-suppressed and nonfat-suppressed volumes and that there is no significant difference between the 3D and 2D approach. Our results also suggested that the networks trained on single sequence images or multiple sequence images organized in multichannel images perform better than the models trained on a mixture of volumes from different sequences. Our investigation of the size of the training set revealed that training a U-Net in this domain only requires a modest amount of training data and results obtained with 49 and 70 training datasets were not significantly different., Conclusions: To summarize, we investigated the use of 2D U-Nets and 3D U-Nets for breast volume segmentation in T1 fat-suppressed and without fat-suppressed volumes. Although our highest score was obtained in the 3D MULTI study, when we took advantage of information in both fat-suppressed and nonfat-suppressed volumes and their 3D structure, all of the methods we explored gave accurate segmentations with an average DSC on >94% demonstrating that the U-Net is a robust segmentation method for breast MRI volumes., (© 2019 American Association of Physicists in Medicine.)

Published

2019

15. Pyridinium-based ionic liquid/water mixture intended for efficient dissolution of cellulose, chitosan and chitin: The pivotal contribution of water.

Author

Taheri N, Abdolmaleki A, and Fashandi H

Abstract

An acidic ionic liquid (IL), i.e. 1-(carboxymethyl)pyridinium chloride, is synthesized and investigated for its untapped potential to dissolve cellulose, chitosan and chitin with concentrations of up to 11, 10 and 5 wt.%, respectively. Interestingly, the optimum water content of the IL/water towards efficient dissolution is determined to be as high as 40 wt.%, which is in evident contrast to the previous reports for other ILs by which the dissolution of polysaccharides is achieved at the expense of water content. Using high water content in IL/water mixture makes a breakthrough in ease of solution processability and dissolution cost reduction. Regenerated cellulose and chitosan have less crystallinity and lower temperature of thermal degradation onset (T ons ) compared to the initial samples. The regenerated cellulose exhibits reduction in degree of polymerization, crystallinity and T ons by 55.1%, 11.0% and 38.2%, respectively. Chitin in addition to dissolution, is also hydrolyzed to quaternary ammonium chitosan., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

16. Phase formation of nanolaminated Mo 2 AuC and Mo 2 (Au 1-x Ga x ) 2 C by a substitutional reaction within Au-capped Mo 2 GaC and Mo 2 Ga 2 C thin films.

Author

Lai CC, Fashandi H, Lu J, Palisaitis J, Persson POÅ, Hultman L, Eklund P, and Rosen J

Abstract

Au-containing nanolaminated carbides Mo 2 AuC and Mo 2 (Au 1-x Ga x ) 2 C were synthesized by a thermally induced substitutional reaction in Mo 2 GaC and Mo 2 Ga 2 C, respectively. The Au substitution of the Ga layers in the structures was observed using cross-sectional high-resolution scanning transmission electron microscopy. Expansion of c lattice parameters was also observed in the Au-containing phases compared to the original phases. Energy dispersive spectroscopy detected residual Ga in Au-substituted layers of both phases with a peculiar Ga in-plane ordering for Au : Ga = 9 : 1 ratio along the Au-Ga layers in Mo 2 (Au 1-x Ga x ) 2 C. These results indicate a generalization of the Au substitution reaction for the A elements in MAX phases.

Published

2017

17. Ti 2 Au 2 C and Ti 3 Au 2 C 2 formed by solid state reaction of gold with Ti 2 AlC and Ti 3 AlC 2 .

Author

Fashandi H, Lai CC, Dahlqvist M, Lu J, Rosen J, Hultman L, Greczynski G, Andersson M, Lloyd Spetz A, and Eklund P

Abstract

Incorporation of layers of noble metals in non-van der Waals layered materials may be used to form novel layered compounds. Recently, we demonstrated a high-temperature-induced exchange process of Au with Si in the layered phase Ti 3 SiC 2 , resulting in the formation of Ti 3 AuC 2 and Ti 3 Au 2 C 2 . Here, we generalize this technique showing that Au/Ti 2 AlC and Au/Ti 3 AlC 2 undergo an exchange reaction at 650 °C to form Ti 2 Au 2 C and Ti 3 Au 2 C 2 and determine their structures by electron microscopy, X-ray diffraction, and ab initio calculations. These results imply that noble-metal-containing layered phases should be possible to synthesize in many systems. The metal to be introduced should be inert to the transition-metal carbide layers, and exhibit negative heat of mixing with the initial A element in a liquid phase or two-phase liquid/solid region at the annealing temperature.

Published

2017

18. Synthesis of Ti 3 AuC 2 , Ti 3 Au 2 C 2 and Ti 3 IrC 2 by noble metal substitution reaction in Ti 3 SiC 2 for high-temperature-stable Ohmic contacts to SiC.

Author

Fashandi H, Dahlqvist M, Lu J, Palisaitis J, Simak SI, Abrikosov IA, Rosen J, Hultman L, Andersson M, Lloyd Spetz A, and Eklund P

Abstract

The large class of layered ceramics encompasses both van der Waals (vdW) and non-vdW solids. While intercalation of noble metals in vdW solids is known, formation of compounds by incorporation of noble-metal layers in non-vdW layered solids is largely unexplored. Here, we show formation of Ti 3 AuC 2 and Ti 3 Au 2 C 2 phases with up to 31% lattice swelling by a substitutional solid-state reaction of Au into Ti 3 SiC 2 single-crystal thin films with simultaneous out-diffusion of Si. Ti 3 IrC 2 is subsequently produced by a substitution reaction of Ir for Au in Ti 3 Au 2 C 2 . These phases form Ohmic electrical contacts to SiC and remain stable after 1,000 h of ageing at 600 °C in air. The present results, by combined analytical electron microscopy and ab initio calculations, open avenues for processing of noble-metal-containing layered ceramics that have not been synthesized from elemental sources, along with tunable properties such as stable electrical contacts for high-temperature power electronics or gas sensors.

Published

2017

19. Untapped potentials of acrylonitrile-butadiene-styrene/polyurethane (ABS/PU) blend membrane to purify dye wastewater.

Author

Mandegari M and Fashandi H

Subjects

Acrylonitrile, Butadienes, Humans, Polyurethanes, Styrene, Wastewater, Water Pollutants, Chemical

Abstract

Production of acrylonitrile-butadiene-styrene/polyurethane (ABS/PU) blend membrane with high rejection efficiency for disperse and vat dyes, is introduced as a facile and cost effective technique to purify textile wastewater. In this respect, membranes are produced using commercially available polymers, i.e. ABS and PU, with different compositions (ABS/PU: 100/0, 80/20, 70/30, 60/40 and 50/50 w/w) through wet casting. Casting solutions with concentration of 30 wt% are prepared using two different solvents, i.e. dimethylformamide (DMF) and N-methyl-2- pyrrolidone (NMP). The prepared membranes are characterized using a variety of analytical techniques including SEM imaging, FTIR spectroscopy, dry and wet gas permeation, evaluation of reusability, antifouling and mechanical properties, photostability, surface hydrophilicity and pure water permeability (PWP) of the produced membranes. According to the results, irrespective of solvent type, ABS/PU membranes with higher PU content have lower porosity and smaller pore size both of which contribute to enhanced dye rejection efficiency. This is while the impact of PU content on the photostability of ABS/PU membranes was found to be negligible. Additionally, the produced ABS/PU membranes exhibit good reusability and antifouling properties. However, the mechanical properties of ABS/PU membranes with higher PU contents are inferior to those with lower PU contents. This contrast highlights the prominence of optimum PU content to make a trade-off between dye rejection efficiency and mechanical properties. In this regard, ABS/PU (60/40 w/w) membrane is recognized as the one with optimum composition. Furthermore, it was found that regardless of PU content, membranes cast from DMF-based solutions exhibit superior rejection performance over those cast from NMP-based solutions. Overall, one can witness that employing ABS/PU membranes provides a meritorious and clean approach to refine disperse and vat dye wastewaters, a great threat to the environment and human health., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

20. Designing the inner surface corrugations of hollow fibers to enhance CO2 absorption efficiency.

Author

Fashandi H, Zarrebini M, Ghodsi A, and Saghafi R

Abstract

For the first time, a low cost strategy is introduced to enhance the efficiency of CO2 absorption using gas-liquid membrane contactors. This is implemented by designing the corrugations in the inner layer of poly(vinyl chloride) hollow fibers (PVC HFs) through changing the bore fluid composition. In fact, the number of corrugations in the HF inner layer is engineered via changing the phase separation time within the inner layer. Such that expedited phase separation leads to highly corrugated inner layer. In contrast, decelerated phase separation is responsible for reduced number of inner layer corrugations. Phase separation causes the initial polymer solution with low viscoelastic moduli to be transferred into polymer-rich domains with high viscoelastic moduli. These domains resist against stretching-induced radial forces toward the center of HF; therefore, the inner layer of HF buckles. Delayed phase separation defers formation of polymer-rich domains and hence, HF with less corrugated inner surface is expected. The phase separation within the HF inner layer is controlled through changing the rate of solvent/nonsolvent exchange. This is conducted by variation the solvent content in the bore fluid; as higher as solvent content, as slower as solvent/nonsolvent exchange., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016