Model study on trapping of protein selenenic acids by utilizing a stable synthetic congener

Shohei Sase; Ryutaro Kimura; Ryosuke Masuda; Kei Goto

doi:10.1039/c9nj01072f

Multi-model study of mercury dispersion in the atmosphere: Vertical distribution of mercury species

10.5194/acp-2016-1074 ◽

2016 ◽

Cited By ~ 2

Author(s):

Johannes Bieser ◽

Franz Slemr ◽

Jesse Ambrose ◽

Carl Brenninkmeijer ◽

Steve Brooks ◽

...

Keyword(s):

Vertical Distribution ◽

Atmospheric Chemistry ◽

Lower Troposphere ◽

Elemental Mercury ◽

Mercury Species ◽

Substantial Impact ◽

Model Studies ◽

Model Study ◽

The Impact ◽

The Vertical Distribution

Abstract. Atmospheric chemistry and transport of mercury play a key role in the global mercury cycle. However, there are still considerable knowledge gaps concerning the fate of mercury in the atmosphere. This is the second part of a model inter-comparison study investigating the impact of atmospheric chemistry and emissions on mercury in the atmosphere. While the first study focused on ground based observations of mercury concentration and deposition, here we investigate the vertical distribution and speciation of mercury from the planetary boundary layer to the lower stratosphere. So far, there have been few model studies investigating the vertical distribution of mercury, mostly focusing on single aircraft campaigns. Here, we present a first comprehensive analysis based on various aircraft observations in Europe, North America, and on inter-continental flights. The investigated models proved to be able to reproduce the distribution of total and elemental mercury concentrations in the troposphere including inter-hemispheric trends. One key aspect of the study is the investigation of mercury oxidation in the troposphere. We found that different chemistry schemes were better at reproducing observed oxidized mercury (RM) patterns depending on altitude. High RM concentrations in the upper troposphere could be reproduced with oxidation by bromine while elevated concentrations in the lower troposphere were better reproduced by OH and ozone chemistry. However, the results were not always conclusive as the physical and chemical parametrizations in the chemistry transport models also proved to have a substantial impact on model results.

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The Prediction of Combined Sewer Overflow Performance from Models – A Case Study

Water Science & Technology ◽

10.2166/wst.1994.0685 ◽

1994 ◽

Vol 29 (1-2) ◽

pp. 373-382 ◽

Cited By ~ 1

Author(s):

Peter D. Hedges

Keyword(s):

Storm Events ◽

Operating Characteristics ◽

Combined Sewer Overflows ◽

Model Studies ◽

Original Proposal ◽

Model Study ◽

Storm Flow ◽

Combined Sewer ◽

The Uk ◽

Main Programme

Hydrodynamic separators have been employed as combined sewer overflows (CSOs) in the UK since the early 1960s. Since little was known of their operating characteristics, Severn Trent Water Authority contracted Aston University to monitor the performance of a separator constructed during 1986-87 at James Bridge, Walsall, UK. Unfortunately only three overflow events were fully documented during the monitoring period, which was particularly dry. One separator was therefore artificially charged by pumping from the adjacent river to simulate storm flow conditions. A model study was not included in the original proposal, but one was established to complement the main programme since the characteristics of hydrodynamic separators were poorly understood. The arrangement of the field site is described, and the results from the monitored storm events, pump tests and model studies are summarised. Characteristics derived from the model study are combined with sewage settling velocity grading curves to predict the performance of the prototype hydrodynamic separator for one of the observed storm events. Given the limitations inherent in the sewage data used, a comparison of the predicted and observed separator efficiencies demonstrates the potential of this approach for the design and selection of CSOs for specific locations.

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Multi-model study of mercury dispersion in the atmosphere: vertical and interhemispheric distribution of mercury species

Atmospheric Chemistry and Physics ◽

10.5194/acp-17-6925-2017 ◽

2017 ◽

Vol 17 (11) ◽

pp. 6925-6955 ◽

Cited By ~ 15

Author(s):

Johannes Bieser ◽

Franz Slemr ◽

Jesse Ambrose ◽

Carl Brenninkmeijer ◽

Steve Brooks ◽

...

Keyword(s):

Atmospheric Chemistry ◽

Lower Troposphere ◽

Elemental Mercury ◽

Mercury Species ◽

Substantial Impact ◽

Model Studies ◽

Model Study ◽

High Concentrations ◽

Intercomparison Study ◽

The Impact

Abstract. Atmospheric chemistry and transport of mercury play a key role in the global mercury cycle. However, there are still considerable knowledge gaps concerning the fate of mercury in the atmosphere. This is the second part of a model intercomparison study investigating the impact of atmospheric chemistry and emissions on mercury in the atmosphere. While the first study focused on ground-based observations of mercury concentration and deposition, here we investigate the vertical and interhemispheric distribution and speciation of mercury from the planetary boundary layer to the lower stratosphere. So far, there have been few model studies investigating the vertical distribution of mercury, mostly focusing on single aircraft campaigns. Here, we present a first comprehensive analysis based on various aircraft observations in Europe, North America, and on intercontinental flights. The investigated models proved to be able to reproduce the distribution of total and elemental mercury concentrations in the troposphere including interhemispheric trends. One key aspect of the study is the investigation of mercury oxidation in the troposphere. We found that different chemistry schemes were better at reproducing observed oxidized mercury patterns depending on altitude. High concentrations of oxidized mercury in the upper troposphere could be reproduced with oxidation by bromine while elevated concentrations in the lower troposphere were better reproduced by OH and ozone chemistry. However, the results were not always conclusive as the physical and chemical parameterizations in the chemistry transport models also proved to have a substantial impact on model results.

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MOVABLE-BED MODEL STUDIES OF PERCHED BEACH CONCEPT

Coastal Engineering Proceedings ◽

10.9753/icce.v13.60 ◽

1972 ◽

Vol 1 (13) ◽

pp. 60

Author(s):

C.B. Chatham

Keyword(s):

Three Dimensional ◽

Normal Wave ◽

Beach Erosion ◽

Model Studies ◽

Model Study ◽

Wide Range ◽

Final Design ◽

Storm Wave ◽

Wave Conditions ◽

Movable Bed

Hydraulic model studies were conducted to aid in ascertaining the technical feasibility and optimum design factors of the perched beach concept. Among these were two-dimensional, movable-bed studies to determine an estimate of the amount of sand which would be lost seaward over the submerged toe structure by normal and storm wave action, the optimum elevation of the submerged toe structure, and the length of a stone blanket required to reduce seaward migration of sand to a minimum. The model beach was subjected to test waves until equilibrium was reached for a wide range of wave conditions for both the existing beach and the perched beach. Test results indicate that (a) little or no beachfill material will be lost seaward of the toe structure for normal wave conditions but the larger storm waves may cause erosion of the perched beach, (b) the installation of a stone blanket shoreward of the toe structure will reduce the amount of beach erosion, (c) if the beach fill is extended a sufficient distance seaward, the toe structure serves no useful purpose, and (d) a three-dimensional movable-bed model study is feasible and is necessary to determine the final design features of a perched beach.

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Artifacts associated with acoustic rhinometric assessment of infants and young children: a model study

Journal of Applied Physiology ◽

10.1152/jappl.1994.77.6.2558 ◽

1994 ◽

Vol 77 (6) ◽

pp. 2558-2563 ◽

Cited By ~ 19

Author(s):

J. E. Buenting ◽

R. M. Dalston ◽

T. L. Smith ◽

A. F. Drake

Keyword(s):

Nasal Cavity ◽

Acoustic Rhinometry ◽

Area Measurement ◽

Model Studies ◽

Model Study ◽

Accurate Indication ◽

Cavity Configuration ◽

Series Of Experiments ◽

Potential Impact ◽

Infants And Young Children

The present study was undertaken to determine in model studies whether currently available acoustic rhinometry instrumentation might be used to analyze the nasal cavity configuration of infants and children. A simple nasal cavity model was constructed using eight Lucite inserts that were placed between standard nosepieces provided by the manufacturer and a 35-cm-long polyvinyl chloride pipe closed at its distal end. To simulate the nasal valve, the inserts were 12 mm in length and had apertures ranging in diameter from 2 to 9 mm. A series of experiments was conducted to evaluate the accuracy with which the acoustic rhinometer measured the size of each insert aperture and the configuration of the model system distal to that aperture. Transmission losses caused errors in the area measurement of the insert aperture and the tube distal to the insert. When the insert aperture was < 6 mm in diameter (0.28 cm2), the aperture area was overestimated by > 10%, whereas the area of the distal tube was underestimated by > 10%. As a result of response lags, the acoustic rhinometer also failed to provide an accurate indication of insert length. Finally, oscillation artifacts caused estimates of the distal pipe area to fluctuate. These three systematic errors are described, and their potential impact on acoustic rhinometry in children is discussed.

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Enhancement of transient electromagnetic soundings: A metallic model study

Geophysics ◽

10.1190/1.1441734 ◽

1984 ◽

Vol 49 (7) ◽

pp. 895-901 ◽

Cited By ~ 1

Author(s):

W. E. Doll ◽

T. V. Skibicky ◽

C. S. Clay

Keyword(s):

Half Space ◽

Short Pulse ◽

Early Time ◽

Image Transmission ◽

Matched Filters ◽

Magnetic Dipoles ◽

Model Studies ◽

Transient Electromagnetic ◽

Model Study ◽

Reflected Signal

Transient electromagnetic (TEM) soundings can be enhanced by additions of matched filtered signals from different coil separations. Results of laboratory metallic model studies are used to demonstrate this technique. A short pulse of current is transmitted from one coil. For each of the signals received in the other coil, the half‐space response (surface wave) is subtracted from the total signal to determine the reflected signal. These reflected signals are passed through matched filters corresponding to the proper separation and a possible layer depth. All of the matched filtered signals corresponding to a particular possible depth are added, and the summed output is stored. The filtering and summing process is repeated for a set of possible interface depths. The sum of matched filtered signals for the correct depth has a peak value of 1 and is symmetric about the peak. We believe that short‐range early‐time values of the transient response can be used to estimate the conductivity of the first layer. This estimate is used for numerical computations of half‐space responses. We have used several magnetic dipoles to represent the finite‐sized coils to show good agreement between theoretical and experimental half‐spaces. Theoretical reflection signals for matched filters can be computed numerically. The stacking of matched filtered signals is an electromagnetic analog of the common‐depth‐point (CDP) seismic technique. It should reduce the effects of nearsurface inhomogeneities and improve the resolution. As an incidental experiment, we show comparisons of the reflected signal and the “image transmission.” The reflected and transmitted signals are essentially the same and support the concept of hybrid‐ray theory for electromagnetic sounding.

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Finite element analysis of the impact of the properties of dental wedge materials on functional features

Archives of Materials Science and Engineering ◽

10.5604/01.3001.0015.5930 ◽

2021 ◽

Vol 112 (1) ◽

pp. 32-41

Author(s):

M. Czerwiński ◽

J. Żmudzki ◽

K. Kwieciński ◽

M. Kowalczyk

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

High Plasticity ◽

Element Analysis ◽

Expanded Polytetrafluoroethylene ◽

Model Studies ◽

Model Study ◽

The Matrix ◽

Functional Features ◽

The Impact

Purpose: Defect of the interproximal wall of the tooth is filled with use the shaped matrix and wedge which seals bottom margin during filling. Better fit of the wedge and equalization of the pressure forces on the matrix is achieved by the compliance of the wedge structure through cuts and perforations and the use of silicone materials and unidirectionally expanded polytetrafluoroethylene (ePTFE). The work presents a methodology for model studies of the mechanics of dental wedges in order to evaluate and compare the impact of wedge materials on functional features. The hypothesis of the work was that the mechanical properties of ePTFE determine the effectiveness of the dental wedge. Design/methodology/approach: Effect of modulus of elasticity and friction coefficient of wedge and matrix materials on the functional features of the wedge was studied on the way Finite Element Analysis (FEA). Simulation included contact sliding between wedge and matrix what was simulated in nonlinear large displacements regime. The sealing evaluation criterion was the pressure distribution between the wedge and matrix below the lower edge of the defect. Displacement values were the criterion for the loss of convexity as a result of matrix deformation. Findings: The material for the wedge should be characterized by a low coefficient of friction, low elasticity (ensuring high compliance of the wedge) and at the same time the ability to large permanent deformations, which allows for plastic shaping of the matrix from the side of the defect in order to achieve the required wall convexity and the tangent point. Research limitations/implications: Results show tendency of phenomena in limitation to model simplification of the interdental gap and the ideal adhesion of the matrix to the tooth and linear elasticity of materials. Practical implications: The material that best meets the requirements is unidirectionally expanded polytetrafluoroethylene, which has one of the lowest coefficients of friction and very high plasticity necessary to shape the matrix from the inside of the cavity. Originality/value: Methodology of model study and criteria of functional characteristics of dental wedge was presented.

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Model studies of the influence of O2 photodissociation parameterizations in the Schumann-Runge bands on ozone related photolysis in the upper atmosphere

Annales Geophysicae ◽

10.1007/s00585-996-0068-9 ◽

1996 ◽

Vol 14 (1) ◽

pp. 68-79 ◽

Cited By ~ 7

Author(s):

Gijs A. A. Koppers ◽

Donal P. Murtagh

Keyword(s):

Production Rate ◽

Computation Time ◽

Simple Algorithm ◽

Computational Effort ◽

Atmospheric Transmission ◽

Model Studies ◽

Photochemical Model ◽

Model Study ◽

Better Than ◽

Photochemical Models

Abstract. A new parameterization for atmospheric transmission and O2 photodissociation in the Schumann-Runge band region has been developed and tested with a 1D radiative-photochemical model. The parameterization is based on the O2-column along the line of sight to the Sun and the local temperature. Line-by-line calculations have served as a benchmark for testing this method and several other, commonly used, parameterizations. The comparisons suggest that differences between the line-by-line calculations and currently accepted parameterizations can be reduced significantly by using the new method, particularly at large solar zenith angles. The production rate of O-atoms computed with this method shows less than 6% deviation compared to the line-by-line calculations at any altitude, all solar zenith angles and in all seasons. The largest errors are found toward the shorter wavelengths in the Schumann-Runge region at low altitudes. Transmittance is approximated to better than 4% at any altitude and/or solar zenith angle. The total O-production rate above 20 km is approximated to better than 2%. The new parameterization is easily implemented in existing photochemical models and in many cases it may simply replace the existing algorithm. The computational effort exceeds that of other parameterizations but in view of the total computation time needed for the actual calculation of the parameterized Schumann-Runge bands this should not lead to significant performance degeneration. The first 14 coefficients of the parameterization are included in this study. Both the complete sets of coefficients and a simple algorithm can be obtained by contacting the authors. A photochemical model study shows the largest effect of the parameterization method is on odd hydrogen concentrations. Subsequent interaction with an odd oxygen family causes differences in the ozone concentrations between the different parameterizations of more than 10% at selected altitudes. Although it is already established that deficiencies in the treatment of Schumann-Runge band absorption are unlikely to explain the current underestimation of ozone concentration at the stratopause in a variety of photochemical models, this study does show that the choice of parameterization has a large impact on the accuracy of the results at large solar zenith angles and in different seasons.

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Model studies of the coast effect on geomagnetic variations

Canadian Journal of Earth Sciences ◽

10.1139/e68-046 ◽

1968 ◽

Vol 5 (3) ◽

pp. 515-522 ◽

Cited By ~ 8

Author(s):

John F. Hermance

Keyword(s):

Thin Sheet ◽

Current Source ◽

Field Measurements ◽

Finite Conductivity ◽

Analog Model ◽

Geomagnetic Variations ◽

Model Studies ◽

Coast Effect ◽

Model Study ◽

Complete Neglect

The effect of a highly conducting ocean on geomagnetic variations has been studied by means of an analog model. Analog model results for a straight coastline show good agreement with analytical results derived for the case of a concentrated current source over the edge of an infinitely conducting ocean. The analog model was extended to the case of a poorly conducting island of irregular shape in a highly conducting ocean by cutting a hole the desired shape (in this case Iceland) from a large thin sheet of lead. Although anomalous contributions in the H, D, and Z components are observed, the distortion of the horizontal field components is restricted to the seaward side of the coast. Over the interior of the island only the vertical field is affected. The model study was undertaken to provide corrections to measurements made in Iceland for deep conductivity studies. Some field observations were in fact made near the coastline, which show general agreement with the model results, but suggest that the model overemphasized the coast effect through complete neglect of the finite conductivity of the island. The field measurements indicate that at distances of 50 km or more from the coast, for periods longer than a few minutes, the coast effect can be neglected.

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Analysis of Load Transmission in Intact and ACL-Deficient Knee Joints Under Drawer at Different Flexion Angles

Advances in Bioengineering ◽

10.1115/imece2002-32610 ◽

2002 ◽

Author(s):

K. E. Moglo ◽

A. Shirazi-Adl

Keyword(s):

Medial Meniscus ◽

Cruciate Ligament ◽

Current Model ◽

Normal Function ◽

Knee Joints ◽

Full Extension ◽

Model Studies ◽

Model Study ◽

Anterior Cruciate ◽

Acl Deficient

Adequate understanding of functional biomechanics of human knee joints is critical in assessment and improvement of current prevention, evaluation and treatment procedures of the joint disorders and injuries. The anterior cruciate ligament (ACL) normal function, injury, diagnostic and replacement have remained controversial despite the very high incidence of ACL rupture and replacement as well as considerable research efforts reported in this field. Similar situation holds true with regard to the other components of the joint such as menisci. Our earlier model studies have demonstrated coupling between the ACL and medial meniscus at full extension under horizontal forces suggesting a greater mechanical importance for the medial meniscus following an ACL transection [1]. The current model study, as a continuation of our earlier works [1,2], aimed to investigate the detailed passive response of the fully unconstrained intact and ACL-deficient tibiofemoral joints under up to 100N posterior femoral force at different flexion angles varying from 0° to 90°.

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