Your search keyword '"Filtration"' showing total 92,208 results

51. Assessing the Impact of Anthropogenically Modified Land Uses on Wetland Health: Case of Witbank Dam Catchment in South Africa.

Author

Mpandeli, Sylvester, Liphadzi, Stanley, Mabhaudhi, Chengetanai, Mabhaudhi, Tafadzwanashe, and Nhamo, Luxon

Subjects

NONPOINT source pollution, GEOGRAPHIC information systems, GREEN infrastructure, ENVIRONMENTAL health, WATERSHEDS, WETLANDS, ACID mine drainage

Abstract

Wetlands are critical ecological infrastructures that improve water quality, serve as habitat for fish and other aquatic life, accumulate floodwaters, and maintain surface water flow during dry periods. However, the health of wetlands has been compromised by anthropogenic activities that affect the constant supply of ecosystem services. This study assessed the impact of anthropogenically modified land use on wetland health in the Witbank Dam Catchment in South Africa, whose land use has been severely modified for agriculture and mining purposes. The study developed a model linking surface runoff generated in the catchment with land use and wetland typology to comprehend diffuse pollution from pollution-source land uses. Runoff data and related wetland spatial information were processed and analysed in a Geographic Information System (GIS) to estimate pollutants (agricultural nutrients and acid mine drainage) from runoff detained and released by wetlands. The analysis facilitated the assessment of the value of wetlands in enhancing water quality, as well as human and environmental health. The runoff volume from pollution-source land uses (urban areas, farmlands, and mining) was used to evaluate annual pollution levels. Wetland types are ranked according to their efficiency levels to filter pollutants. The assumption is that the difference between filtered and unfiltered runoff is the quantity of polluted runoff water discharged into the river system. The analysis has shown that 85% of polluted runoff generated in the catchment ends up in the river system. An important observation is that although wetlands have a substantial ability to absorb excess pollutants, they have finite boundaries. Once they reach their full holding capacity, they can no longer absorb any further pollutants. The excess is discharged into the river system, risking human and environmental health. This explains why the Limpopo River is heavily polluted resulting in the death of fish, crocodiles and other aquatic life. [ABSTRACT FROM AUTHOR]

Published

2024

52. Assessment and design of filters and masks against COVID-19 via modeling and simulations.

Author

Zhang, Lydia, Alshaikh, Mohamed K., and Lekakou, Constantina

Subjects

*MATERIALS testing, *AIR filters, *PRODUCT design, *N95 respirators, *SIMULATION methods in education, *COMMERCIAL product evaluation, *PERMEABILITY, *MEDICAL masks, *PARTICULATE matter, *COVID-19, *INDUSTRIAL hygiene, *INDUSTRIAL safety

Abstract

This study aimed to evaluate and design masks against viruses, especially SARS-CoV-2 associated with COVID-19. A continuum filtration model was developed where the rate of particle deposition and "sticking" on the filter fibers is a critical term in the mass transfer, together with permeation velocity, filter porosity, tortuosity, and Brownian diffusion. CFD simulations of the airflow during respiration lead to the recommendation that the filter permeability should be above 4 × 10−11 m2 to direct the airflow for effectiveness against virus particles; otherwise, low filter permeabilities cause the unfiltered air to flow preferentially through the leak gaps between the mask and the headform. Different mask filters with microstructural and geometry data from the literature are assessed via filtration simulations for breathability and filtration efficiency. The results demonstrate that a surgical mask of 25% porosity, pore size of 150 µm and permeability of 4.4 × 10−11 m2 can achieve 100% minimum efficiency while demonstrating high breathability, complying with the criteria of FFP3, N95, and surgical Class II and IIR masks. Selected cotton and synthetic cloths as well as electrospun fiber layers are predicted to comply with FFP2, N95, and surgical mask Class II and IIR standards. [ABSTRACT FROM AUTHOR]

Published

2024

53. Filtrations on the globalization of twisted D-modules over Dedekind schemes.

Author

Hayashi, Takuma

Subjects

*GLOBALIZATION, *INTEGERS, *MODULES (Algebra)

Abstract

In [11] , we established the theory of twisted D-modules over general base schemes. In this short note, we construct a K -invariant positive exhaustive filtration on the globalization of the twisted D-module on a smooth quasi-compact K -scheme over a Dedekind scheme S obtained by the direct image of a K -equivariant twisted integrable connection along a K -equivariant closed immersion from a smooth proper K -scheme Y with K a smooth S -affine group scheme, whose p th associated graded O S -module is locally free of finite rank for every integer p. In particular, the k -module of its global sections is projective if S is affine with coordinate ring k. [ABSTRACT FROM AUTHOR]

Published

2024

54. Study on filtration equations based on filtrate viscosity.

Author

Hongguang Lv, Chen, Wei, Kang, Xuegang, Huang, Gen, Li, Jihui, and Ma, Liqiang

Subjects

*DARCY'S law, *PERMEABILITY, *VISCOSITY, *COAL, *CAKE

Abstract

Classical filtration equations incorporate microscopic parameters, which pose challenges when applied in industrial settings. Previous extensive research has established the impact of filter cake thickness and variations in filtration pressure on the filtration rate. Moreover, the thickness of the filter cake is influenced by various factors, such as the filtration chamber's design dimensions and the coal slurry's properties. Thus, by expressing the properties of the coal slurry at a macroscopic level, it becomes possible to achieve a macroscopic representation of the filtration rate. This study presents the derivation of a macroscopic filtration equation that relies on the viscosity of the filtrate. The derivation process is mainly based on Darcy's law, analyzing the relationship between the permeability of each layer and the permeability of cake under constant pressure and explaining and analyzing the method of determining the equation parameters. [ABSTRACT FROM AUTHOR]

Published

2024

55. Retention of per- and polyfluoroalkyl substances by syringe filters.

Author

He, Ke, Feerick, Anna, Jin, Hongyue, Batista Andrade, Jahir A., Duarte Batista, Marylia, Dugan, Caitlyn, and Blaney, Lee

Subjects

*FLUOROALKYL compounds, *DISSOLVED organic matter, *POLYETHERSULFONE, *CELLULOSE acetate, *FLUOROSURFACTANTS, *SUSPENDED solids, *POLYVINYLIDENE fluoride, *SYRINGES

Abstract

Per- and polyfluoroalkyl substances (PFAS) are being increasingly measured in water and wastewater due to emerging toxicity concerns and strict regulatory limits. Previous studies have filtered water samples to remove suspended solids before PFAS analysis. However, filtration may introduce negative bias to measured PFAS concentrations. Using a well-controlled syringe pump assembly, we evaluated retention of six perfluoroalkyl carboxylates, three perfluoroalkyl sulfonates, one fluorotelomer sulfonate, and two perfluorooctane sulfonamides by glass-fiber, glass-fiber cellulose acetate, nylon, polyethersulfone, polypropylene, polyvinylidene fluoride/ difluoride, and surfactant-free cellulose acetate filters. The impacts of water quality and operational parameters were also investigated for select filter types. We found that PFAS were retained on all filters, with the glass-fiber cellulose acetate filters demonstrating the lowest retention. For all filters, PFAS retention was linearly related to chain length and hydrophobicity above certain thresholds (i.e., log D higher than 1.5). Importantly, more PFAS were retained at low filtrate volumes, and ~ 30 mL filtrate was required before the retention efficiencies stabilized. Solution pH only affected the retention of perfluorooctane sulfonamides. Pore size (i.e., 0.20, 0.45, 0.70 µm), filtration rate (i.e., 0.5, 1.0 mL min−1), and PFAS concentration (i.e., 10, 100 µg L−1), did not exert major influences on PFAS retention. The presence of dissolved organic matter improved PFAS permeation. Based on the reported results, filtration introduces bias and is not recommended for sample pretreatment. [ABSTRACT FROM AUTHOR]

Published

2024

56. Microplastic and Nanoplastic Particle Isolation from Liquid and Biological Samples via Mini-Extruder Filtration (MEF).

Author

Hall, Abigail, Cardona Polo, Luis F., Helms, Kennedy, Christodoulides, Alexei, and Alves, Nathan J.

Subjects

THROMBOSIS, SURFACE chemistry, ENVIRONMENTAL health, PARTICLE analysis, ENVIRONMENTAL sampling, PLASTIC marine debris

Abstract

Microplastic pollution poses an increasing environmental and human health risk and additional techniques are needed to facilitate nondestructive, quantitative particle recovery and analysis. Using a mini-extruder filtration (MEF) device, the efficiency of pristine particle capture from solution and digested biological tissue (blood clots) was assessed. Polystyrene particles in both the submicron (100, 300, and 500 nm) and micron range (2, 5, 7, and 10 µm) with aminated, carboxylated, or unmodified surface modifications were explored. The MEF-isolated-particle recovery was analyzed pre- and postseparation isolation and quantified via a Nanosight LM10 particle tracking system (submicron particles) or hemacytometer (micron particles). Particles' surface chemistry and concentration did not impact recovery compared to unfiltered samples with smaller particle sizes reducing recovery efficiency. Micron particle size recovery averaged 86.8 ± 4.3% across all surface chemistries at the same concentration; however, submicron particle recoveries varied by size and charge with 500 nm exhibiting recoveries of 80.6 ± 16.6%, 300 nm 73.0 ± 10.4%, and 100 nm particles 17.0 ± 10.3%. The mini-extruder device, used as a filtration recovery system, efficiently captures 10 to 0.5 µm particles from environmental and tissue samples making it an effective and low-cost platform facilitating the nondestructive capture of diverse microplastics for subsequent analysis. [ABSTRACT FROM AUTHOR]

Published

2024

57. A comprehensive review of membrane-based water filtration techniques.

Author

Aziz, Shahid, Mazhar, Abdur Rehman, Ubaid, Ali, Shah, Syed Muhammad Hamza, Riaz, Yasser, Talha, Tariq, and Jung, Dong-Won

Subjects

WATER purification, MATERIALS science, ACTIVATED carbon, ULTRAFILTRATION, MICROFILTRATION, REVERSE osmosis

Abstract

The purification of water is not only essential for human consumption but is becoming a necessity considering the limited freshwater reserves of the planet. Over the last few decades advancements in material sciences and technology have paved the way for the development of novel purification techniques. Amongst these techniques membrane-based filtration is considered as the least expensive and most effective. These membrane-based filtration techniques can be broadly categorized into reverse osmosis (RO), ultrafiltration, microfiltration and activated carbon filters (ACF). The mode of operation, research evolution and practical applications of each technique are compared in this holistic analysis. Although RO is the oldest and most established membrane-based filtration technique in the literature, it is ACF that is ranked as the most promising new technique with much simplicity and effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

58. Experimental Evaluation of Effective Chemical Composition on Reservoir Quality of Bottomhole Zone of Low Permeability Terrigenous Reservoirs.

Author

Petrakov, D. G., Loseva, A. V., Jafarpour, H., and Penkov, G. M.

Subjects

RESERVOIRS, THERMAL oil recovery, PERMEABILITY, DRILLING fluids, FILTERS & filtration

Abstract

During reservoir development process, the permeability of near wellbore zone decreases, and filtration characteristics of productive formations deteriorate due to anthropogenic impact for the primary and secondary improved oil recovery process and other technological operations. To restore and improve the productivity of wells in heterogeneous low-permeability terrigenous reservoirs, classic acid treatments are recommended. Aggressive secondary sedimentation or in other words, precipitation occurs during acid treatments in terrigenous reservoirs, confirming the effectiveness of putting wells into operation through the proposed chemical composition as the cleaning and stimulating operations. Therefore, a comprehensive approach and methods of impact on the near wellbore zone are necessary, as these are multifactorial processes. This research is focused on developing effective technologies to improve technical means or compositions that restore well productivity by decolmatizing the formation and substantiating effective chemical compositions. The results of this work show that the proposed method and chemical reagent highly improved the permeability of near wellbore zone and as a result increased the productivity index of the well. [ABSTRACT FROM AUTHOR]

Published

2024

59. Synergistic Leaching of Titanium, Aluminum, and Magnesium Components during Dilute Acid Pressure Treatment of High-Titanium Blast Furnace Slag.

Author

Yuan, Ke, He, Siqi, Yu, Bo, Qian, Shiyi, Wu, Xueyu, Li, Wenyi, and Zhao, Chunmeng

Subjects

*SULFURIC acid, *TITANIUM oxides, *X-ray diffraction, *LEACHING, *SLAG

Abstract

This study focuses on an improved leaching process through the combination of pressurized conditions and direct filtration of acid leaching slurry, which is conductive to improving the filterability of acid leaching systems and the extraction rates of Ti, Al, and Mg components. The effects of sulfuric acid concentration, reaction temperature, particle size of materials, acid–slag ratio, and reaction time on the leaching efficiency were systematically investigated. The results showed that pressurization significantly enhances the filtration efficiency of the reaction slurry. Under the same filtration time, the filtration efficiency increased from 46% under ordinary pressure to 78% under pressurized conditions. Moreover, under the optimal reaction conditions, the extraction rates of Ti, Al, and Mg components were more than 88.21%, 97.8%, and 96.31%, respectively. Additionally, XRD and FTIR showed that titanium oxide sulfate hydrate crystals were produced in the acid-leached residues when the reaction temperature exceeded 190 °C, thereby reducing the extraction rate of Ti component. And the XRD pattern shows that when the reaction temperature is maintained at 190 °C and the reaction time is extended to 150 min, titanium oxide sulfate hydrate crystals will be formed to reduce the extraction rate of the Ti component. In summary, this study not only provides important theoretical support for the resource utilization of high-titanium blast furnace slag but also offers a feasible solution for efficient extraction and convenient filtration, thus holding significant academic and practical implications. [ABSTRACT FROM AUTHOR]

Published

2024

60. Sulfonated Pentablock Copolymer (Nexar TM) for Water Remediation and Other Applications.

Author

Filice, Simona, Scuderi, Viviana, and Scalese, Silvia

Subjects

*SURFACE preparation, *SEPARATION of gases, *GRAPHENE oxide, *DISPERSION (Chemistry), *POLLUTANTS

Abstract

This review focuses on the use of a sulfonated pentablock copolymer commercialized as NexarTM in water purification applications. The properties and the use of sulfonated copolymers, in general, and of NexarTM, in particular, are described within a brief reference focusing on the problem of different water contaminants, purification technologies, and the use of nanomaterials and nanocomposites for water treatment. In addition to desalination and pervaporation processes, adsorption and photocatalytic processes are also considered here. The reported results confirm the possibility of using NexarTM as a matrix for embedded nanoparticles, exploiting their performance in adsorption and photocatalytic processes and preventing their dispersion in the environment. Furthermore, the reported antimicrobial and antibiofouling properties of NexarTM make it a promising material for achieving active coatings that are able to enhance commercial filter lifetime and performance. The coated filters show selective and efficient removal of cationic contaminants in filtration processes, which is not observed with a bare commercial filter. The UV surface treatment and/or the addition of nanostructures such as graphene oxide (GO) flakes confer NexarTM with coating additional functionalities and activity. Finally, other application fields of this polymer are reported, i.e., energy and/or gas separation, suggesting its possible use as an efficient and economical alternative to the more well-known Nafion polymer. [ABSTRACT FROM AUTHOR]

Published

2024

61. A value for cooperative games on simplicial complexes with a filtration.

Author

Rodríguez-Gómez, J.C., Ordóñez Sánchez, Manuel, and Jiménez-Losada, A.

Subjects

*NEURAL circuitry, *GAMES, *SOCIAL networks, *SOCIAL structure, *CONVEX geometry

Abstract

The classical Shapley value for cooperative games determines a payoff vector considering that the formation of the grand coalition is made by incorporating players one by one. Later, this method was generalized for games with restricted cooperation by several known mathematical structures: partitions, graphs, convex geometries, antimatroids, matroids or simplicial complexes. In this paper we consider games over simplicial complex with an extra information about the relationships of the agents, a filtration of the complex. Filtrations are very known simplicial structures in the social and neuronal networks. We propose a Shapley value for these situations and an axiomatization. [ABSTRACT FROM AUTHOR]

Published

2024

62. Application of Dynamic Programming Models for Improvement of Technological Approaches to Combat Negative Water Leakage in the Underground Space.

Author

Lousada, Sérgio, Delehan, Svitlana, and Khorolskyi, Andrii

Subjects

GROUNDWATER, UNDERGROUND areas, WATER filtration, DYNAMIC programming, DYNAMIC models, WATER leakage

Abstract

The article solves an urgent problem, which is to develop a new approach to finding solutions to improve technological methods to combat negative water leakage in underround spaces. We propose the use of dynamic programming methods to select the optimal technology to secure such spaces. In accordance with the algorithm proposed in this paper, the problem was broken into a number of stages. At each stage, an optimal solution was sought (organisation of transport, delivery of materials to the destination, selection of materials, etc.). Thus, we applied a decomposition approach that allowed us to take into account the variety of parameters that affect the efficiency of the process. All these stages and their corresponding technological solutions were formalised by building network models. In these network models, vertices corresponded to solutions, and the distances between vertices (edges) corresponded to the value of the optimisation parameter. Thus, the shortest route from the initial to the final vertex corresponded to the optimal technological solution to combat negative water leakage in underground spaces. Based on the systematisation of data on technologies to combat water inflow into underground spaces, basic and refined models were developed. These models allowed us to take into account the risks associated with water breakthroughs into underground spaces. To minimise the risks, additional measures to combat water inflows are envisaged. In the practical part of this study, the results of the selection of a method with which to control water inflows are presented. This method involves the use of anchoring to reduce water filtration. According to the results of field observations, no water breakthroughs into the underground space were recorded. [ABSTRACT FROM AUTHOR]

Published

2024

63. Effect of in-line filtration in newborns: study protocol of the Intravenous Neonatal Central Access Safety (INCAS) randomized controlled trial.

Author

Cresi, Francesco, Maggiora, Elena, Capetti, Cecilia, Capitanio, Martina, Ferroglio, Mattia, Spada, Elena, De Matteis, Francesca, Cosimi, Sara, Mosca, Fabio, Coscia, Alessandra, Aceti, Arianna, Amato, Orsola, Ancora, Gina, Baldassarre, Maria Elisabetta, Barone, Giovanni, Bellan, Cristina, Borgarello, Gabriella, Bottino, Roberto, Campagnoli, Francesca, and Capasso, Antonella

Subjects

*NEONATAL intensive care units, *INFUSION therapy, *NEWBORN infants, *PARENTERAL therapy, *INCAS, *COTTON fibers

Abstract

Background: Particulate contamination due to infusion therapy (administration of parenteral nutrition and medications) carries a potential health risk for infants in neonatal intensive care units (NICUs). This particulate consists of metals, drug crystals, glass fragments, or cotton fibers and can be generated by drug packaging, incomplete reconstitution, and chemical incompatibilities. In-line filters have been shown to remove micro-organisms, endotoxin, air, and particles in critically ill adults and older infants, but its benefits in newborn remain to be demonstrated. Moreover, 50% of inflammatory episodes in the setting of NICUs are blood culture-negative. These episodes could be partly related to the presence of particles in the infusion lines. Methods: A multicenter randomized single-blind controlled trial was designed. All infants admitted to NICUs for which prolonged infusion therapy is expected will be enrolled in the study and randomized to the Filter or Control arm. All patients will be monitored until discharge, and data will be analyzed according to a "full analysis set." The primary outcome is the frequency of patients with at least one sepsis-like event, defined by any association of suspected sepsis symptoms with a level of c-reactive protein (CRP) > 5 mg/L in a negative-culture contest. The frequency of sepsis, phlebitis, luminal obstruction, and the duration of mechanical ventilation and of catheter days will be evaluated as secondary outcomes. The sample size was calculated at 368 patients per arm. Discussion: This is the first multicenter randomized control trial that compares in-line filtration of parenteral nutrition and other intravenous drugs to infusion without filters. Sepsis-like events are commonly diagnosed in clinical practice and are more frequent than sepsis in a positive culture contest. The risk of these episodes in the target population is estimated at 30–35%, but this data is not confirmed in the literature. If the use of in-line filters results in a significant decrease in sepsis-like events and/or in any other complications, the use of in-line filters in all intravenous administration systems may be recommended in NICUs. Trial registration: ClinicalTrials.gov, NCT05537389, registered on 12 September 2022 (https://classic.clinicaltrials.gov/ct2/show/results/NCT05537389?view=results). [ABSTRACT FROM AUTHOR]

Published

2024

64. Effect of Activated Carbon Compaction on Water Filtration Efficiency.

Author

Mersal, Mohd Elfy, Kuok King Kuok, Rahman, Md. Rezaur, Chiu Po Chan, Bin Bakri, Muhammad Khusairy, Alam Chowdhury, Md. Didarul, and Majed Patwary, Md Abdul

Subjects

*ACTIVATED carbon, *WATER pollution, *RIVER pollution, *WATER filters, *WATER quality

Abstract

Water contamination in rural Malaysian areas, mainly caused by logging activities leading to soil erosion and river pollution, presents a significant threat to water supplies. In response, a specialized activated carbon water filtering device was developed to target the absorption of organic molecules. The impact of compaction of activated carbon on water filtering efficiency was evaluated. Testing both compacted and uncompacted activated carbon filters with contaminated river water, the study utilized the Malaysia Department of Environment's (DOE) water quality index (WQI) to assess filter effectiveness. The results revealed that water filtered through compacted activated carbon was clearer and less yellowish compared to the uncompacted counterpart. Moreover, the compacted filter showed higher dissolved oxygen levels, lower ammoniacal nitrogen levels, and a lower pH, resulting in a significantly higher WQI score of 80.4 compared to 78.8 for the uncompacted filter. Further analysis via an adsorption isotherm test demonstrated the superior ability of compacted activated carbon to absorb acetic acid, as evidenced by higher lines in the Freundlich isotherm model graphs. These findings emphasize the efficacy of compacted activated carbon in water filtration, advocating for its integration into filter construction to enhance water quality in rural regions. [ABSTRACT FROM AUTHOR]

Published

2024

65. Neural Network Signal Integration from Thermogas-Dynamic Parameter Sensors for Helicopters Turboshaft Engines at Flight Operation Conditions.

Author

Vladov, Serhii, Scislo, Lukasz, Sokurenko, Valerii, Muzychuk, Oleksandr, Vysotska, Victoria, Osadchy, Serhii, and Sachenko, Anatoliy

Subjects

*HELICOPTERS, *DATA integration, *ENGINES, *DETECTORS, *NEURAL development, *ELECTRONIC data processing

Abstract

The article's main provisions are the development and application of a neural network method for helicopter turboshaft engine thermogas-dynamic parameter integrating signals. This allows you to effectively correct sensor data in real time, ensuring high accuracy and reliability of readings. A neural network has been developed that integrates closed loops for the helicopter turboshaft engine parameters, which are regulated based on the filtering method. This made achieving almost 100% (0.995 or 99.5%) accuracy possible and reduced the loss function to 0.005 (0.5%) after 280 training epochs. An algorithm has been developed for neural network training based on the errors in backpropagation for closed loops, integrating the helicopter turboshaft engine parameters regulated based on the filtering method. It combines increasing the validation set accuracy and controlling overfitting, considering error dynamics, which preserves the model generalization ability. The adaptive training rate improves adaptation to the data changes and training conditions, improving performance. It has been mathematically proven that the helicopter turboshaft engine parameters regulating neural network closed-loop integration using the filtering method, in comparison with traditional filters (median-recursive, recursive and median), significantly improve efficiency. Moreover, that enables reduction of the errors of the 1st and 2nd types: 2.11 times compared to the median-recursive filter, 2.89 times compared to the recursive filter, and 4.18 times compared to the median filter. The achieved results significantly increase the helicopter turboshaft engine sensor readings accuracy (up to 99.5%) and reliability, ensuring aircraft efficient and safe operations thanks to improved filtering methods and neural network data integration. These advances open up new prospects for the aviation industry, improving operational efficiency and overall helicopter flight safety through advanced data processing technologies. [ABSTRACT FROM AUTHOR]

Published

2024

66. The Potential of Liquorpheresis to Treat Leptomeningeal Disease.

Author

Lu, Victor M., Shah, Ashish H., and González, Manuel Menéndez

Subjects

*MENINGEAL cancer, *CENTRAL nervous system diseases, *CENTRAL nervous system, *CEREBROSPINAL fluid

Abstract

Leptomeningeal disease (LMD) is a devastating sequela of many cancers, with an extremely poor prognosis. Barriers to improving outcomes are related to the inability of many traditional therapies to effectively reach the cerebrospinal fluid (CSF) space within the central nervous system. Liquorpheresis is an emerging treatment modality specific to CSF diseases, the primary mechanism of action of which is direct targeted filtration of CSF content by neurosurgical access. In this review, we highlight the principles of liquorpheresis and detail how LMD can be amenable to this treatment. Further, we summarize the current in vitro and in vivo evidence supporting liquorpheresis as a feasible method to treat LMD and other central nervous system diseases as well as describe its conceivable limitations. [ABSTRACT FROM AUTHOR]

Published

2024

67. A New Method for Evaluating the Homogeneity within and between Weave Repeats in Plain Fabric Structures Using Computer Image Analysis.

Author

Owczarek, Magdalena

Subjects

*IMAGE analysis, *WEAVING patterns, *HOMOGENEITY, *TEXTILE chemistry, *WEAVING, *TECHNICAL textiles, *IMAGE encryption

Abstract

This article introduces a novel, rapid, and non-destructive method for assessing homogeneity within and between weave repeats in fabric structures, termed intra-repeat (IAR) and inter-repeat (IER) evaluation. The method focuses on structural parameters, including inter-thread pores (ITPs) and warp and weft pitches, using computer image analysis. Each parameter is assigned to a module in the repeat weave pattern, facilitating the sorting of modules in the IAR and IER fabric structure arrangement. The method was verified using artificial images and 30 real plain fabrics with varying degrees of warp grouping, employing the author's proprietary software, MagFABRIC version 2.1The general measurable coefficients of intra- and inter-homogeneity were defined and related to the airflow measurements of these fabrics. Multiple regression models of airflow revealed strong dependencies, particularly for F = 10, with the size, shape, and position of ITPs and warp and weft pitches showing significant correlation. These findings underscore the importance of the new homogeneity parameters in textile structure analysis, including both IAR and IER woven fabric structure homogeneity parameters. The research aims to model specialized fabrics (e.g., barrier, filtration, composite fabrics) to address local changes in fabric structure affecting properties such as filtration efficiency, air permeability, and mechanical properties, especially in applications like composites or medical implants. [ABSTRACT FROM AUTHOR]

Published

2024

68. Unsteady Pressure Field in a Porous Bed with a Weakly Compressible Framework in Nonlinear Radial Filtration of Fluid in It.

Author

Filippov, A. I., Zelenova, M. A., and Akhmetova, O. V.

Subjects

*RADIAL flow, *ONE-dimensional flow, *COMPRESSIBLE flow, *OIL fields, *EQUATIONS of state

Abstract

Consideration has been given to a nonlinear problem of a filtration pressure field in a porous bed operated in a specified depression regime with a one-dimensional radial flow of a compressible medium in it. Solutions have been obtained of a problem for the zeroth and the first expansion coefficients of a nonlinear filtration pressure field, which represent the main and the first asymptotic approximations describing high-amplitude pressure fields in oil and gas beds with a weakly compressible framework. The development of the asymptotic method as applied to the problem under consideration has led to the creation of a new method of constructing analytical expressions for expansion coefficients, which coincides with the method of succession of steady states in solving the problem for the leading approximation. Based on a computational experiment, it has been shown that the pressure field in a porous bed with a weakly compressible framework is most accurately described using the method of succession of steady states, according to which pressure disturbances in the bed are absent at short times. It has been established that with increase in the distance from the well axis the disturbance delay time increases, and the velocity of the buildup of perturbations, caused by the operation of the well in a constant depression mode, decreases. [ABSTRACT FROM AUTHOR]

Published

2024

69. The impact of PAC‐loaded polymer membrane thickness on chloroform removal and comparison of solvent and thermal membrane regeneration methods.

Author

Hou, Yizhi and Mayer, Brooke K.

Subjects

*POLYMERIC membranes, *CHLOROFORM, *ACTIVATED carbon, *WATER purification, *WATER distribution, *ADSORPTION capacity

Abstract

Powdered activated carbon (PAC) has better adsorption performance than granular activated carbon (GAC) and is widely used in water purification. In most cases, PAC is dosed into water directly, then precipitated as sludge, and landfilled. In this study, PAC was mixed with a polymer and dissolved in dimethylformamide (DMF) solvent to form a PAC‐loaded membrane, which was then tested for chloroform removal. The chloroform adsorption capacity of the PAC membrane increased with increasing membrane thickness because of higher carbon loading. However, regardless of membrane thickness, the flux of the PAC membranes was similar since flux resistance predominantly occurred at the top dense polymer surface. This dense surface can be removed by sandpaper polishing, where the adsorption capacity of the polished PAC membranes was 20% higher than the unpolished membranes because of more even distribution of feed water on the polished surface. Removal of the dense surface via polishing increased the flux by 97% to 130%, exceeding the flux of typical household carbon block filters. Using DMF to regenerate the membrane recovered 48% to 66% of the initial adsorption capacity. Thermal regeneration of the exhausted PAC membrane at 250°C was more effective than DMF regeneration (both in terms of cost and performance), with 83% to 94% PAC membrane regeneration efficiency over four regeneration recycles. After four thermal regeneration cycles, flux increased by 300% and the membrane became brittle because of thermal aging of the polymer, indicating that a total of 6 h of regeneration time (equivalent to three cycles in this study) was the limit for effective PAC membrane performance. Practitioner Points: Powdered activated carbon was immobilized on a membrane to remove chloroform from water.Thicker membranes increased adsorption capacity but did not impact flux.Flux and capacity increased using polishing to remove the dense polymer surface and more evenly distribute flow across the membrane.Thermal regeneration of the membrane at 250°C was effective for up to three cycles and outperformed solvent‐based regeneration.PAC‐loaded filters are relevant for applications such as household carbon block filtration. [ABSTRACT FROM AUTHOR]

Published

2024

70. Pre-isolation procedures matter–Comparison of different filtration methods prior to DNA isolation in river microbiome analysis.

Author

Furtak, Karolina, Marzec-Grządziel, Anna, and Hossain, Md Shakhawat

Subjects

NUCLEIC acid isolation methods, WATER filters, MEMBRANE filters, WATER sampling, NUCLEOTIDE sequencing

Abstract

• Analyses of river microbiomes have major limitations;. • The method of water sample preparation is important;. • The search for microbiological indicators makes sense;. • Comparing results from different methods is problematic. A common method of preparing water samples for environmental DNA isolation is to vacuum filter the water sample through membrane filters. The aim of research was to test the performance of five methods of preparing river water samples for DNA isolation. DNA was isolated using a commercial kit and next-generation sequencing was performed on an Illumina Miseq platform. Pseudomonas spp. was the dominant bacterial genus in all samples. However, its relative abundance varied between samples. Depending on the volume of water filtered, the eluates yielded 62–63 % (V = 100 mL), 59–63.9 % (V = 50 mL), 17.8–19.4 % (V = 500 mL) of the relative abundance of Pseudomonas sp. In contrast, DNA isolation from the membrane filter (V = 100 mL) yielded 38 % and from the sediment after centrifugation 27 %. Differences were observed for all taxa obtained. The results indicate that even the sample volume used for filtration influences the results obtained from next-generation sequencing. [ABSTRACT FROM AUTHOR]

Published

2024

71. 热处理对聚丙烯腈纳米纤维膜性能的影响.

Author

于宾, 朱钱钱, 张显华, 陈莉娜, and 段佳佳

Abstract

Copyright of Cotton Textile Technology is the property of Cotton Textile Technology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

72. Behavioral and Biochemical Effects of Glyphosate-Based Herbicide Roundup on Unionid Mussels: Are Mussels Good Indicators of Water Pollution with Glyphosate-Based Pesticides?

Author

Drewek, Agnieszka, Lubawy, Jan, Domek, Piotr, Polak, Jan, Słocińska, Małgorzata, Dzięgelewska, Aleksandra, and Klimaszyk, Piotr

Subjects

WATER pollution, PESTICIDE pollution, MUSSELS, HERBICIDES, GLYPHOSATE, SUPEROXIDE dismutase

Abstract

The behavioral (filtration activity) and biochemical (oxidative stress) effects of Roundup 360 Plus (active substance glyphosate) herbicide on two species of unionid mussels, Unio tumidus (Philipsson, 1788) and Anodonta anatina (L.), were evaluated at concentrations ranging from 15 to 1500 μg L−1 of glyphosate for five days. During all experiments, we did not record the mortality of the studied mussel species. Exposure to Roundup herbicide induced dose-dependent filtration disruptions in both U. tumidus and A. anatina. Exposure of the mussels to a low and environmentally relevant concentration 15 µg glyphosate L−1 resulted in a slight (<20%) and temporary decrease in mean valve dilation. Exposure of the mussels to Roundup at relatively high concentrations caused drastic and prolonged shell closure and a reduction in the mussel shell opening rate. Exposure of both mussel species to herbicide resulted in oxidative stress; an increase in superoxide dismutase enzymatic activity was detected. The most significant increase in SOD activity was observed after the exposure to the highest Roundup concentration. However, no correlation between the Roundup concentration and enzymatic activity was found. The use of unionid mussels to detect environmentally relevant concentrations of Roundup, as a part of biological early warning system for pollution, is limited, but they can serve to detect the incidental pollution of aquatic ecosystems with high concentrations of this herbicide. [ABSTRACT FROM AUTHOR]

Published

2024

73. Proteomic analysis of host cell protein fouling during bioreactor harvesting.

Author

Zhang, Da, Wickramasinghe, S. Ranil, Zydney, Andrew L., Smelko, John P., Loman, Abdullah, Wheeler, April, and Qian, Xianghong

Subjects

CELLULAR therapy, THERAPEUTIC use of proteins, MEMBRANE filters, LASER spectroscopy, PROTEIN analysis

Abstract

Chinese hamster ovary (CHO) cells are among the most common cell lines used for therapeutic protein production. Membrane fouling during bioreactor harvesting is a major limitation for the downstream purification of therapeutic proteins. Host cell proteins (HCP) are the most challenging impurities during downstream purification processes. The present work focuses on identification of HCP foulants during CHO bioreactor harvesting using reverse asymmetrical commercial membrane BioOptimal™ MF‐SL. In order to investigate foulants and fouling behavior during cell clarification, for the first time a novel backwash process was developed to effectively elute almost all the HCP and DNA from the fouled membrane filter. The isoelectric points (pIs) and molecular weights (MWs) of major HCP in the bioreactor harvest and fouled on the membrane were successfully characterized using two‐dimensional gel electrophoresis (2D SDS‐PAGE). In addition, a total of 8 HCP were identified using matrix‐assisted laser desorption/ionization‐mass spectroscopy (MALDI‐MS). The majority of these HCP are enzymes or associated with exosomes, both of which can form submicron‐sized particles which could lead to the plugging of the filters. [ABSTRACT FROM AUTHOR]

Published

2024

74. REDUCTION OF POTENTIAL RADIOLOGICAL RISKS FOR PATIENTS UNDERGOING DIAGNOSTIC EXAMS THROUGH MODIFICATION OF THE X-RAY SPECTRUM.

Author

Cruz Delgado, José Santa, Márquez Pachas, Fernando, Gonzales-Ccoscco, Alberto E., Carrasco Solís, Eduardo, Herrera Castillo, Carlos, Patiño Camargo, Galo, and Alva-Sánchez, Mirko

Subjects

X-ray equipment, ABSORBED dose, X-ray spectra, COPPER, REDUCTION potential

Abstract

Copyright of Momento: Revista de Física is the property of Universidad Nacional de Colombia, Departamento de Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

75. Image-to-Text Conversion and Aspect-Oriented Filtration for Multimodal Aspect-Based Sentiment Analysis.

Author

Wang, Qianlong, Xu, Hongling, Wen, Zhiyuan, Liang, Bin, Yang, Min, Qin, Bing, and Xu, Ruifeng

Abstract

Multimodal aspect-based sentiment analysis (MABSA) aims to determine the sentiment polarity of each aspect mentioned in the text based on multimodal content. Various approaches have been proposed to model multimodal sentiment features for each aspect via modal interactions. However, most existing approaches have two shortcomings: (1) The representation gap between textual and visual modalities may increase the risk of misalignment in modal interactions; (2) In some examples where the image is not related to the text, the visual information may not enrich the textual modality when learning aspect-based sentiment features. In such cases, blindly leveraging visual information may introduce noises in reasoning the aspect-based sentiment expressions. To tackle these shortcomings, we propose an end-to-end MABSA framework with image conversion and noise filtration. Specifically, to bridge the representation gap in different modalities, we attempt to translate images into the input space of a pre-trained language model (PLM). To this end, we develop an image-to-text conversion module that can convert an image to an implicit sequence of token embedding. Moreover, an aspect-oriented filtration module is devised to alleviate the noise in the implicit token embeddings, which consists of two attention operations. After filtering the noise, we leverage a PLM to encode the text, aspect, and image prompt derived from filtered implicit token embeddings as sentiment features to perform aspect-based sentiment prediction. Experimental results on two MABSA datasets show that our framework achieves state-of-the-art performance. Furthermore, extensive experimental analysis demonstrates the proposed framework has superior robustness and efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

76. Simplified Method for Measurement of Arabinoxylan Content in Wort and Beer.

Author

Kihara, Makoto, Morita, Mariko, Kamiya, Takashi, Nanamori, Masahito, Hoki, Takehiro, and Suda, Narushi

Subjects

BEER, BEER brewing, POLYSACCHARIDES, BETA-glucans, VISCOSITY, MALTING

Abstract

Arabinoxylan is a major polysaccharide found in barley and wheat. As this polysaccharide has been reported to be involved in wort viscosity and filterability, as well as β-glucan, it has become increasingly important in beer brewing in recent years, despite the limited availability of a measurement methodology for arabinoxylan. In this study, we developed a simple method for determining arabinoxylan content in wort and beer products using a commercially available xylose determination kit. The results show a relationship between arabinoxylan and the viscosity of wort and beer products. These results were consistent with previous reports, suggesting that this simple method can be used to observe the behavior of arabinoxylan during malting and brewing. [ABSTRACT FROM AUTHOR]

Published

2024

77. Use of Portable Air Cleaners in Washington State Schools: A Qualitative Analysis Based on the Technology Acceptance Model.

Author

Carmona, Nancy, Seto, Edmund, Hayward, Lisa, Tan, Shirlee, Lee, Sinang, Kemperman, Brandon, Truong, Jenna, and Austin, Elena

Abstract

ABSTRACT BACKGROUND METHODS RESULTS CONCLUSIONS The US government allocated over $2.5 billion in “Elementary and Secondary School Emergency Relief (ESSER)” funds to Washington State for COVID‐19 response and ventilation improvements. Despite available funding, gaps persist in supporting schools to successfully use portable air cleaners (PACs). We evaluated PAC needs within King County, Washington and characterized factors influencing schools' purchase and use of PACs.Public Health—Seattle & King County (PHSKC) assessed school's ventilation systems and IAQ improvements through a survey (N = 17). Separately, semi‐structured interviews (N = 13) based on the technology acceptance model (TAM) were conducted with school personnel. A thematic analysis using inductive and deductive coding was conducted and logistic regression models assessed the predictive capability of the TAM.The PHSKC survey findings informed our recommendations. Positive attitudes, knowledge, and beliefs in ease of use and effectiveness of PACs were facilitators to PAC use. While barriers included a lack of training, education, and concerns about PAC maintenance and sustainability. TAM constructs of perceived usefulness (PU) and perceived ease of use (PEU) were predictive of having the intention to use PACs in schools.There is a critical need for solutions to circumvent challenges to implementing PACs in schools. This characterization provides insight for promoting PAC use in IAQ‐impacted schools. [ABSTRACT FROM AUTHOR]

Published

2024

78. HEMA-Lysine-Based Cryogels for Highly Selective Heparin Neutralization.

Author

Mecca, Tommaso, Spitaleri, Fabiola, La Spina, Rita, Gioria, Sabrina, Giglio, Valentina, and Cunsolo, Francesca

Subjects

*HEPARIN, *MACROPOROUS polymers, *BASIC proteins, *ARTIFICIAL blood circulation, *CARDIOVASCULAR surgery, *BLOOD circulation, *HEMODIALYSIS patients

Abstract

Unfractionated heparin (UFH) and its low-molecular-weight fragments (LMWH) are widely used as anticoagulants for surgical procedures and extracorporeal blood purification therapies such as cardiovascular surgery and dialysis. The anticoagulant effect of heparin is essential for the optimal execution of extracorporeal blood circulation. However, at the end of these procedures, to avoid the risk of bleeding, it is necessary to neutralize it. Currently, the only antidote for heparin neutralization is protamine sulphate, a highly basic protein which constitutes a further source of serious side events and is ineffective in neutralizing LMWH. Furthermore, dialysis patients, due to the routine administration of heparin, often experience serious adverse effects, among which HIT (heparin-induced thrombocytopenia) is one of the most severe. For this reason, the finding of new heparin antagonists or alternative methods for heparin removal from blood is of great interest. Here, we describe the synthesis and characterization of a set of biocompatible macroporous cryogels based on poly(2-hydroxyethyl methacrylate) (pHEMA) and L-lysine with strong filtering capability and remarkable neutralization performance with regard to UFH and LMWH. These properties could enable the design and creation of a filtering device to rapidly reverse heparin, protecting patients from the harmful consequences of the anticoagulant. [ABSTRACT FROM AUTHOR]

Published

2024

79. Investigation of Permeability Against Some Metals with a Functional Thiophene Based Polymeric Membrane Sensor.

Author

Kocaeren, Aysel Aydın and Karakurt, Emine

Subjects

*PERMEABILITY, *MEMBRANE separation, *METALS, *CONTACT angle, *SCANNING electron microscopy, *THIOPHENES, *METHACRYLATES, *POLYMERIC membranes

Abstract

There are many advantages of using membranes in the separation of wastewater, but their uses are limited because they are not reusable due to blockages in the membrane. In this study, alginate‐based poly(ethyl‐methacrylate) (PEMA) polymeric membranes containing previously synthesized IOS, which are known to be selective against Fe3+, were prepared and their permeability against heavy metals such as Cd2+, Co2+, Cu2+, Fe3+, Hg2+ and Pb2+ were investigated. The properties of membranes characterized by UV‐Vis and FT‐IR spectrophotometry, were investigated with analysis techniques such as SEM, contact angle measurements, TG‐DTG, DSC and AFM. As a result of the measurements taken from the UV spectrophotometer of the filtrates passed through various aqueous ion solutions of the membranes as mentioned above, it was concluded that the ion to which the membrane was most selective was the Fe3+ ion. Moreover, it could be said that thanks to the repeated filtration processes the membrane prepared retained some Fe3+ ion in each measurement and could be used many times in the filtration process. Resultantly, it is possible to say that the polymeric Fe3+ membrane sensor produced may be suitable for use when it is necessary to remove Fe3+ ion from a polluted aqueous environment. [ABSTRACT FROM AUTHOR]

Published

2024

80. Extraction of Uranyl Tricarbonate Complex by Clay Materials from Aqueous Solutions.

Author

Krasavina, E. P., Martynov, K. V., Arzumanova, K. G., Bessonov, A. A., Gordeev, A. V., Bomchuk, A. Yu., Zharkova, V. O., and Kulyukhin, S. A.

Subjects

*AQUEOUS solutions, *CLAY, *BENTONITE, *URANIUM, *KAOLIN

Abstract

The extraction of the tricarbonate complex of uranyl [UO2(CO3)3]4– from aqueous solutions on clay powders from kaolin clays of the Kampanovskoye deposit and from bentonite clays of the 10th Khutor and Dinozavrovoe deposits, as well as their mixtures, was investigated. The studies were carried out with clay powders, both untreated and treated with water, 0.5 M Na2CO3 and NaNO3 solutions, and 2 M NaOH solutions. It was shown that the [UO2(CO3)3]4– complex is not sorbed on clay materials from aqueous solutions under static conditions. The filtration of an aqueous solution of [UO2(CO3)3]4– through columns with clay mixtures was established to enable the extraction up to 87% of uranium from the amount passed through the column. [ABSTRACT FROM AUTHOR]

Published

2024

81. Optimization of Electrospun TORLON ® 4000 Polyamide-Imide (PAI) Nanofibers: Bridging the Gap to Industrial-Scale Production.

Author

Yalcinkaya, Baturalp and Buzgo, Matej

Subjects

*THERMAL resistance, *POLYAMIDES, *GAS industry, *HIGH temperatures, *PETROLEUM industry, *NANOFIBERS

Abstract

Polyamide-imide (PAI) is an exceptional polymer known for its outstanding mechanical, chemical, and thermal resistance. This makes it an ideal choice for applications that require excellent durability, such as those in the aerospace sector, bearings, gears, and the oil and gas industry. The current study explores the optimization of TORLON® 4000 T HV polyamide-imide nanofibers utilizing needleless electrospinning devices, ranging from laboratory-scale to industrial-scale production, for the first time. The PAI polymer has been dispersed in several solvent systems at varying concentrations. The diameter of the electrospun PAI nanofibers ranged from 65.8 nanometers to 1.52 μm. Their filtering efficiency was above 90% for particles with a size of 0.3 microns. The TGA results proved that PAI nanofibers have excellent resistance to high temperatures up to 450 °C. The PAI nanofibers are ideal for hot air intake filtration and fire-fighter personal protection equipment applications. [ABSTRACT FROM AUTHOR]

Published

2024

82. On the Infinite-Dimensional Modular Lie Superalgebras of O-Type.

Author

Xu, Xiaoning and Zhao, Jing

Subjects

*LIE superalgebras, *NILPOTENT Lie groups, *ISOMORPHISM (Mathematics), *AUTOMORPHISMS

Abstract

The natural filtrations of infinite-dimensional Lie superalgebras of O -type over a field of positive characteristic are proved to be invariant under automorphisms by studying ad-nilpotent elements. We observe that two Lie superalgebras of O -type are isomorphic if and only if the integers in the definition of these Lie superalgebras are intrinsic. Thereby, all the Lie superalgebras of O -type are classified in the sense of isomorphism. [ABSTRACT FROM AUTHOR]

Published

2024

83. Fabrication of Superhydrophobic Polycaprolactone Foam via Phase Separation and Silica Modification for Oil–Water Separation.

Author

Wang, Xiaolong, Liu, Qianwei, Pan, Yamin, Tu, Yongqiang, and Liu, Xianhu

Subjects

*PHASE separation, *FOAM, *POLYCAPROLACTONE, *OIL spills, *CONTACT angle, *SILICA

Abstract

Rising oil spills from contemporary industrial activities pose threats to local ecosystems. This study presents a novel approach, fabricating superhydrophobic polycaprolactone (PCL) 3D porous foam for oil–water separation using thermally induced nonsolvent‐induced phase separation (TINIPS) and silica modification, achieving an impressive water contact angle of 151.56°. PCL foam exhibits remarkable versatility, proving effective in oil absorption on water surfaces and underwater, with an adsorption capacity reaching 9.32 times its weight. Additionally, film‐like PCL foam emerges as a valuable tool for oil–water separation through filtration, maintaining a flux of 13.63 m3 m−2 h−1 even after 10 cycles. This research advances superhydrophobic materials, demonstrating practical applications in mitigating environmental challenges posed by oil spills. [ABSTRACT FROM AUTHOR]

Published

2024

84. A review of the role played by cilia in medusozoan feeding mechanics.

Author

Jordano, Mayara de A., Nagata, Renato M., and Morandini, André C.

Subjects

*CILIA & ciliary motion, *THEATER reviews, *JELLYFISHES, *MEDUSOZOA, *HYDROZOA, *ANIMAL feeds

Abstract

Cilia are widely present in metazoans and have various sensory and motor functions, including collection of particles through feeding currents in suspensivorous animals. Suspended particles occur at low densities and are too small to be captured individually, and therefore must be concentrated. Animals that feed on these particles have developed different mechanisms to encounter and capture their food. These mechanisms occur in three phases: (i) encounter; (ii) capture; and (iii) particle handling, which occurs by means of a cilia‐generated current or the movement of capturing structures (e.g. tentacles) that transport the particle to the mouth. Cilia may be involved in any of these phases. Some cnidarians, as do other suspensivorous animals, utilise cilia in their feeding mechanisms. However, few studies have considered ciliary flow when examining the biomechanics of cnidarian feeding. Anthozoans (sessile cnidarians) are known to possess flow‐promoting cilia, but these are absent in medusae. The traditional view is that jellyfish capture prey only by means of nematocysts (stinging structures) and mucus, and do not possess cilia that collect suspended particles. Herein, we first provide an overview of suspension feeding in invertebrates, and then critically analyse the presence, distribution, and function of cilia in the Cnidaria (mainly Medusozoa), with a focus on particle collection (suspension feeding). We analyse the different mechanisms of suspension feeding and sort them according to our proposed classification framework. We present a scheme for the phases of pelagic jellyfish suspension feeding based on this classification. There is evidence that cilia create currents but act only in phases 1 and 3 of suspension feeding in medusozoans. Research suggests that some scyphomedusae must exploit other nutritional sources besides prey captured by nematocysts and mucus, since the resources provided by this diet alone are insufficient to meet their energy requirements. Therefore, smaller particles and prey may be captured through other phase‐2 mechanisms that could involve ciliary currents. We hypothesise that medusae, besides capturing prey by nematocysts (present in the tentacles and oral arms), also capture small particles with their cilia, therefore expanding their trophic niche and suggesting reinterpretation of the trophic role of medusoid cnidarians as exclusively plankton predators. We suggest further study of particle collection by ciliary action and its influence on the biomechanics of jellyfishes, to expand our understanding of the ecology of this group. [ABSTRACT FROM AUTHOR]

Published

2024

85. Variations in ecosystem service provision of two functionally similar bivalve habitats.

Author

Rullens, Vera, Lohrer, Andrew M., Townsend, Michael, and Pilditch, Conrad A.

Subjects

*BIVALVES, *HABITATS, *WATER quality, *NITROGEN in water, *ECOSYSTEM services, *QUALITY of service, *WATER quality monitoring

Abstract

The quantification of ecosystem services (ES) remains challenging and can result in biases towards data-rich ES in management. For infaunal bivalves, little quantitative in situ data are available on the ES they provide, and differences between functionally similar species in different habitats are rarely considered. Here, we aimed to measure and compare the ecosystem functions (primary production, nutrient processing, water clearance rates) underpinning water quality regulation in an estuarine intertidal and subtidal bivalve habitat (dominated by Austrovenus stutchburyi and Paphies australis respectively). In situ benthic chambers were used to measure sediment–water column solute fluxes (NH4+, N2, O2) and clearance rates which were scaled up (accounting for habitat differences; e.g. inundation period) to daily estimates of ES potential. Higher hourly microphytobenthic productivity, nitrogen recycling and water filtration were observed for the intertidal bivalve habitat. These differences were attributed to environmental differences rather than differences in bivalve biomass. However, scaling these rates to daily ES estimates showed that inundation period will restrict water quality regulating services in the intertidal. Measuring multiple ecosystem functions in situ provides an important step forward in ES quantification and accounts for ecological complexity, feedbacks and highlights habitat-specific differences in how functionally similar species contribute to ES. [ABSTRACT FROM AUTHOR]

Published

2024

86. Modeling of Filtration Phenomenon in Hydrostatic Drives.

Author

Klarecki, Klaudiusz, Rabsztyn, Dominik, and Czop, Piotr

Subjects

HYDRAULIC drive, HYDRAULIC control systems, EVIDENCE gaps, HYDRAULIC fluids, WORKING fluids, FILTERS & filtration, WATER filtration

Abstract

Some users consider modern hydrostatic drives and controls to be unreliable and difficult to maintain. This view is often due to operational problems caused by issues with obtaining and then maintaining the appropriate cleanliness class of the working fluid. Recommendations on the selection of appropriate filtration system elements can be found in the literature, but there is no numerical model that could be helpful in a detailed analysis of the phenomenon. In the article, the authors tried to fill the research gap regarding the lack of a filtration model based on the filtration efficiency coefficient of filter elements used in hydraulic drives and controls. The developed model allows users to determine the influence of selected filtration system parameters on the separation of contaminants by filter elements. The model is intended to help designers and users of hydraulic drives and controls in optimizing the filtration system in order to obtain and then maintain the required cleanliness class of the hydraulic fluid. This paper also includes the results of the sensitivity analysis of selected filtration-system operating parameters in terms of the highest efficiency. In order to verify the developed model, experimental tests were also carried out, with the results presented in this paper. Based on the numerical analyses and experimental studies, recommendations that may be helpful in the selection or development of filtration systems used in hydrostatic drives and controls were developed. [ABSTRACT FROM AUTHOR]

Published

2024

87. Filtering Efficiency and Design Properties of Medical- and Non-Medical-Grade Face Masks: A Multiscale Modeling Approach.

Author

Rasekh, Manoochehr, Pisapia, Francesca, Hafizi, Sassan, and Rees, David

Subjects

MEDICAL masks, MULTISCALE modeling, SCANNING electron microscopy, PRESSURE drop (Fluid dynamics), INFECTIOUS disease transmission

Abstract

Approved medical face masks have been shown to prevent the spread of respiratory droplets associated with coronavirus transmission in specific settings. The primary goal of this study was to develop a new strategy to assess the filtering and transmissibility properties of medical- and non-medical-grade face masks. In this study, we designed and assessed the filtering efficiency of particles through six different masks with a diverse set of fabrics, textures (woven and non-woven), fiber diameters, and porosity. The filtering and transmissibility properties of face mask layers individually and in combination have been assessed using mathematical analyses and new experimental data. The latter provided velocity profiles and filtration efficiencies for which the data were shown to be predictable. The filtration efficacy and pressure drop across each fabric have been tested using an aerosol particle spray and scanning electron microscopy. To assess clinical significance, the temperature and humidity of the masks were tested on a group of healthy volunteers spanning various age ranges (9–79 years old), utilizing an embedded temperature sensor disc. Also, a mask filter model was developed using fluid dynamic simulations (Solidworks Flow) to evaluate the aerodynamic dispersion of respiratory droplets. Overall, the FFP2 and FFP3 masks demonstrated the highest filtration efficiencies, each exceeding 90%, a feature of multi-layered masks that is consistent with simulations demonstrating higher filtering efficiencies for small particles (<5 µm). The velocity and temperature simulations of all six masks revealed a low air velocity (~1 m/s) inside the mask and a temperature variation of approximately 3 °C during the breathing cycle. [ABSTRACT FROM AUTHOR]

Published

2024

88. Adsorption on Powdered Activated Carbon (PAC) Dosed into an Anthracite-Sand Filter in Water Treatment—Model and Criterion Equations.

Author

Bielski, Andrzej and Ożóg, Jakub

Subjects

SAND filtration (Water purification), ACTIVATED carbon, WATER purification, WATER filters, POLITICAL action committees, PECLET number

Abstract

This paper presents research on the mass dispersion and adsorption of organics present in tap water on powdered activated carbon (PAC) in a two-layer filter column. The adsorption rate depends on the difference between the concentration of organics and the equilibrium concentration. In homogeneous flocculators with simultaneous adsorption on PAC, the concentration difference is lower than in a filter column with PAC. Therefore, the utilization of the PAC's adsorption capacity in filters is higher than in homogeneous flocculators. PAC is introduced into the upper anthracite layer of a filter bed, while the bottom layer is a sand layer, which protects the underdrain system from becoming clogged with PAC particles. The sorbent wis introduced into the bed in the final phase of filter backwashing. The authors present a model of adsorption on PAC in a filter column. Both experiments and calculations confirmed a better utilization of PAC's adsorption capacity in the filter column compared to its utilization in a homogeneous flocculator. Three criterion equations were developed using dimensionless numbers, Re, Pe and Nu, as well as two similarity moduli related to a sorbent apparent density and an adsorption coefficient. Additionally, a relationship between the Peclet number (Pe) and the Reynolds number (Re) as well as the similarity modulus for the sorbent apparent density were determined for the mass dispersion process. The relationship between the diffusive Nuselt number (Nu) and the Re number as well as the similarity modulus for the sorbent apparent density were determined for the parameter describing an adsorbate permeation rate across a water–sorbent interface. The impact of the Re number and the similarity modulus for the sorbent apparent density on the Henry constant was also investigated. The criterion equations can be used to determine the adsorption model parameters; they may be helpful in designing a filtration system supplemented with PAC. In the capillary velocity range V x * ∈ 〈0.15·10−2; 0.72·10−2〉 m/s and with a change in the apparent density of the sorbent ρ p , s o r b from 3000 to 12,000 g PAC/m3 of the bed, as a result of the experimental tests carried out, it was established that the actual coefficient of longitudinal dispersion D x * varied in the range of 0.16·10−4 to 2.03·10−4 m2/s, the product of the constant mass transfer rate and the specific outer surface of sorbent k ⋅ a m varied in the range of 2.23·10−7 to 1.70·10−6 (m/s)·(m2/g PAC), while the Henry constant Γ* varied in the range of 7.24 to 44.20 1/m3 of sorbent and the Henry constant Γ varied in the range of 0.0012 to 0.0019 m3 of water/g PAC. [ABSTRACT FROM AUTHOR]

Published

2024

89. 电解/过滤处理高锰地下水实验研究.

Author

云 旭, 张吉库, 陈 玲, and 李思琪

Abstract

Copyright of Technology of Water Treatment is the property of Technology of Water Treatment Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

90. Hydraulic Performance of Conventional and Conical Geotextile Units Filtering Two Highway Soils.

Author

Ryoo, S. C. and Aydilek, A. H.

Subjects

COMPUTATIONAL fluid dynamics, DISCRETE element method, RETAINING walls, SOILS, GEOTEXTILES

Abstract

More than one-third of highway retaining wall failures around the world occurred due to missing or inadequate drainage systems. A research study was conducted to determine the performance of a recently developed pore pressure mitigation system through the usage of conical geotextile units filtering retaining wall backfill soils used in highway environment. A numerical model based on a computational fluid dynamics and discrete element method (CFD-DEM) coupled approach was developed to simulate particle movement in the soil and piping through the geotextiles. The model was used for conventional as well as conical geotextile filter systems that use woven and nonwoven geotextiles filtering marginal backfill soils with high fines contents and a common gravel backfill material. Both soil-geotextile contact zone and system permeabilities were influenced by varying fines content in the backfill material. Conical filter usage increased the system permeability up to 2.6 times, while piping rates increased up to almost 10 times as result of conical filter usage. A retention ratio successfully predicted piping rates for different types of woven and nonwoven geotextiles with a percent error range of 13–30%, and was used to develop simple performance charts. The developed charts can be useful for practitioners, and the developed methodology can be adopted to extend these chart solutions to other types of soils and geotextiles. [ABSTRACT FROM AUTHOR]

Published

2024

91. Spatial–Spectral Description of an Input Superconducting Converter of a Magnetocardiograph.

Author

Motorin, S. V., Golyshev, N. V., and Golyshev, D. N.

Abstract

During biomagnetic (magnetocardiographic) studies, it is necessary to consider the spatial features of the input converter-and-heart structure (the depth of occurrence, location and orientation of the current dipole, and the geometric configuration of the input converter). The spatial–spectral density of the source strongly depends on the depth of its occurrence. The derivation and analysis of the spatial–frequency transformations of the input converter and its spatial filtering properties are considered. [ABSTRACT FROM AUTHOR]

Published

2024

92. Evaluation of the detector linearity response of the DR system in different x-ray bean filters

Author

K. A. C. Daros, C. H. Murata, E. M. Policarpo, K. J. Ogawa, C. Miri, O. S. Fontoura, and T. M. B. Farias

Subjects

direct digital radiography, Image quality, linearity, filtration, Science

Abstract

In the recent past, at Brazilian radiology services, direct digital radiography (DR) systems are replacing Computed Radiography (CR). This situation provides several significant advantages such as improving digital image quality, patient effective dose reduction, and improved speed of examinations performed. To evaluate DR systems, various organizations have published protocols with guidelines concerning quality assurance and acceptance tests for DRs. In these protocols, there are methodologies for evaluating several parameters, such as the detector linearity response (DLR). To test the DLR, different methodologies are proposed by the organizations, such as the application of different additional filters on the X-ray beams spectrum to promote the X-ray doses suitable to produce the latent image in the DR. The objective of this work was to evaluate the results of different protocol methodologies for carrying out the DLR test of a DR flat panel. An analogic radiology equipment, a primary ionization chamber, a DR system and images unprocessed were used in this study. As indicated by the protocols, the spectra of the X-rays were modified by additional filters of copper (Cu) with aluminum (Al); Al; Cu; and polymethylmethacrylate (PMMA). The spectra of the X-rays were modified to achieve the exposure range of 0.1 to 7 mR. The results showed that the DLR curves adjustment were R²>0.99, for a logarithmic equation, type y=a.ln(x)+b. For the filters of 0.5 mmCu with 1.0 mmAl; 11.5 mmAl; 1.0 mmCu; 21 mmAl the mean pixel values showed 0.9% of the coefficient of variation (COV), while for 10 cm PMMA filters, the COV increased to 2.7%. The study showed that methodologies using Al, Cu and Al with Cu filters DLR have similar responses while using PMMA, the response was slightly different.

Published

2024

93. Preservation of Tender Coconut Water: Recent Technologies and Way Forward

Author

Nalla, Bhanu Prakash Reddy, Waded, Kusuma N., Sanjana, K., Sinija, Vadakkepulppara Ramachandran Nair, Pandiselvam, R., editor, and Ramesh, S.V., editor

Published

2024

94. Modeling of Filtration Processes with Arbitrary Shaped Particles Using an Immersed-Boundary-Method (IBM)

Author

Braschke, Kamil, Zargaran, Amin, Freese, Florian, Bürger, Markus, Burgmann, Sebastian, Janoske, Uwe, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Benim, Ali Cemal, editor, Bennacer, Rachid, editor, Mohamad, Abdulmajeed A., editor, Ocłoń, Paweł, editor, Suh, Sang-Ho, editor, and Taler, Jan, editor

Published

2024

95. Microalgae Harvest Technology

Author

Koyande, Apurav Krishna, Show, Pau-Loke, Chang, Jo-Shu, Section editor, Lan, John Chi-Wei, Section editor, and Bisaria, Virendra, editor

Published

2024

96. Gradient Ratio Tests on Nonwoven Geotextiles Filtering Clay Under Normal Stresses

Author

Xu, Chao, Du, Chunxue, Yang, Yang, Shen, Panpan, Peng, Shantao, Förstner, Ulrich, Series Editor, Rulkens, Wim H., Series Editor, Wang, Sijing, editor, Huang, Runqiu, editor, Azzam, Rafig, editor, and Marinos, Vassilis P., editor

Published

2024

97. Controlling the Gas Mode of a Mold for Producing Thin-Wall Castings

Author

Ponomarenko, Olga, Yevtushenko, Nataliia, Berlizieva, Tetiana, Shelepko, Pavlo, Yevtushenko, Yehor, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Pavlenko, Ivan, editor, Edl, Milan, editor, and Machado, Jose, editor

Published

2024

98. Reduction of the Carbon Footprint in Automotive Filtration Applications by means of Alternative Materials and Optimized Product Design

Author

Spelter, Lars, Grebhardt, Sven, Schweikl, Christian, Hirt, Markus, Veit, Martin, Kilian, Alexander, Müller, Thilo, Kulzer, André Casal, editor, Reuss, Hans-Christian, editor, Wagner, Andreas, editor, and Liedecke, Franziska, With Contrib. by

Published

2024

99. Influence of Filter Structure and Casting System on Filtration Efficiency in Aluminum Mold Casting

Author

Baumann, Benedict, Keßler, Andreas, Dommaschk, Claudia, Wolf, Gotthard, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Osgood Jr., Richard, Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Aneziris, Christos G., editor, and Biermann, Horst, editor

Published

2024

100. Polymer Composites for Environmental Pollution and Remediation

Author

Saini, Ankita, Saini, Sunil Kumar, Thakur, Vijay Kumar, Series Editor, Sethi, Sushanta K., editor, Gupta, Hariome Sharan, editor, and Verma, Akarsh, editor

Published

2024