Your search keyword '"Pappas, Athanasios"' showing total 8 results

1. Supplementation of broiler breeder diets with selenium and polyunsaturated fatty acids affects the egg, the embryo and the growing chick

Author

Pappas, Athanasios C.

Subjects

636.508527

Published

2005

2. A Bayesian inverse dynamic approach for impulsive wave loading reconstruction: Theory, laboratory and field application

Author

Antonini, A. (author), William Brownjohn, James Mark (author), Dassanayake, Darshana (author), Raby, Alison (author), Bassit, James (author), Pappas, Athanasios (author), D'Ayala, Dina (author), Antonini, A. (author), William Brownjohn, James Mark (author), Dassanayake, Darshana (author), Raby, Alison (author), Bassit, James (author), Pappas, Athanasios (author), and D'Ayala, Dina (author)

Abstract

The measurement of wave forces acting on marine structures is a complicated task, both during physical experiments and, even more so, in the field. Force transducers adopted in laboratory experiments require a minimum level of structural movement, thus violating the main assumption of fully rigid structure and introducing a dynamic response of the system. Sometimes the induced vibrations are so intense that they completely nullify the reliability of the experiments. On-site, it is even more complex, since there are no force transducers of the size and capacity able to measure such massive force intensity acting over the very large domain of a marine structure. To this end, this investigation proposes a Bayesian methodology aimed to remove the undesired effects from the directly (laboratory applications) or indirectly (field applications) measured wave forces. The paper presents three applications of the method: i) a theoretical application on a synthetic signal for which MATLAB® procedures are provided, ii) an experimental application on laboratory data collected during experiments aimed to model broken wave loading on a cylinder upon a shoal and iii) a field application designed to reconstruct the wave force that generated recorded vibrations on the Wolf Rock lighthouse during Hurricane Ophelia. The proposed methodology allows the inclusion of existing information on breaking and broken wave forces through the process-based informative prior distributions, while it also provides the formal framework for uncertainty quantification of the results through the posterior distribution. Notable findings are that the broken wave loading shows similar features for both laboratory and field data. The load time series is characterised by an initial impulsive component constituted by two peaks and followed by a delayed smoother one. The first two peaks are due to the initial impact of the aerated front and to the sudden deceleration of the falling water mass previously upwa, Coastal Engineering

Published

2021

3. Influence of the Spatial Pressure Distribution of Breaking Wave Loading on the Dynamic Response of Wolf Rock Lighthouse

Author

Dassanayake, Darshana T. (author), Antonini, A. (author), Pappas, Athanasios (author), Raby, Alison (author), Brownjohn, James Mark William (author), D’Ayala, Dina (author), Dassanayake, Darshana T. (author), Antonini, A. (author), Pappas, Athanasios (author), Raby, Alison (author), Brownjohn, James Mark William (author), and D’Ayala, Dina (author)

Abstract

The survivability analysis of offshore rock lighthouses requires several assumptions of the pressure distribution due to the breaking wave loading (Raby et al. (2019), Antonini et al. (2019). Due to the peculiar bathymetries and topographies of rock pinnacles, there is no dedicated formula to properly quantify the loads induced by the breaking waves on offshore rock lighthouses. Wienke’s formula (Wienke and Oumeraci (2005) was used in this study to estimate the loads, even though it was not derived for breaking waves on offshore rock lighthouses, but rather for the breaking wave loading on offshore monopiles. However, a thorough sensitivity analysis of the effects of the assumed pressure distribution has never been performed. In this paper, by means of the Wolf Rock lighthouse distinct element model, we quantified the influence of the pressure distributions on the dynamic response of the lighthouse structure. Different pressure distributions were tested, while keeping the initial wave impact area and pressure integrated force unchanged, in order to quantify the effect of different pressure distribution patterns. The pressure distributions considered in this paper showed subtle differences in the overall dynamic structure responses; however, pressure distribution #3, based on published experimental data such as Tanimoto et al. (1986) and Zhou et al. (1991) gave the largest displacements. This scenario has a triangular pressure distribution with a peak at the centroid of the impact area, which then linearly decreases to zero at the top and bottom boundaries of the impact area. The azimuthal horizontal distribution was adopted from Wienke and Oumeraci’s work (2005). The main findings of this study will be of interest not only for the assessment of rock lighthouses but also for all the cylindrical structures built on rock pinnacles or rocky coastlines (with steep foreshore slopes) and exposed to harsh breaking wave loading., Coastal Engineering

Published

2021

4. Rocking of offshore lighthouses under extreme wave impacts: Limit analysis, analytic formulations and distinct element method

Author

Pappas, Athanasios (author), D'Ayala, Dina (author), Dassanayake, Darshana T. (author), Antonini, A. (author), Raby, Alison (author), Pappas, Athanasios (author), D'Ayala, Dina (author), Dassanayake, Darshana T. (author), Antonini, A. (author), and Raby, Alison (author)

Abstract

This study describes the structural response of historic lighthouses to extreme wave impacts. Located offshore on exposed rocks, 19th Century lighthouses were built with large interlocked granite blocks and have survived weathering for nearly two centuries. Under extreme wave impacts, lighthouses of this structural typology may uplift and rock, whereas sliding is prevented by the vertical interlocking. The uplift and sliding thresholds calculated with the limit analysis method reveal why this structural system is capable of bearing extreme wave impacts without failure. The ingenious vertical keying is proven to be a major characteristic that contributes to the resilience of these lighthouses. The structural response is explained with the use of analytic formulations of the rocking motion. Detailed analysis of the response to wave impact is conducted with reference to Wolf Rock lighthouse. The impact wave corresponding to a 250-year effective return period is identified using non-stationary Bayesian extreme analysis. Moreover, wave flume tests on a scaled cylindrical structure were performed to identify the wave impact force time-history shapes. Based on two waves: a theoretical time-history based on existing models in the literature and the measured time-histories from small-scale experiments, a series of synthetic force time-history sequences are generated for the purposes of a parametric analysis. This parametric analysis, with the Distinct Element Method, using the commercial software 3DEC, reveals the influence of the duration and shape of the force time-history function. For impacts with the same impulse values, shorter time impacts produce the most intense opening of joints, despite causing smaller horizontal displacements. Furthermore, variability in the structural response is revealed even for impacts of the same impulse, duration and maximum force but different shape of the force time-history., Coastal Engineering

Published

2021

5. Bayesian operational modal analysis of offshore rock lighthouses: Close modes, alignment, symmetry and uncertainty

Author

Brownjohn, James Mark William (author), Raby, Alison (author), Au, Siu Kui (author), Zhu, Zuo (author), Wang, Xinrui (author), Antonini, A. (author), Pappas, Athanasios (author), D'Ayala, Dina (author), Brownjohn, James Mark William (author), Raby, Alison (author), Au, Siu Kui (author), Zhu, Zuo (author), Wang, Xinrui (author), Antonini, A. (author), Pappas, Athanasios (author), and D'Ayala, Dina (author)

Abstract

Despite use of GPS, lighthouses remain critical infrastructure for preserving safety of mariners and maritime trade, and the most dramatic examples are probably the Victorian era masonry towers located on remote offshore reefs around the British Isles and exposed to extreme weather conditions. Due to their age and likely increasing future loading, dynamic field investigations were undertaken for condition assessment. The field investigations of a sample of seven lighthouses had focused on experimental modal analysis (EMA) of shaker force and acceleration response data in order to identify sets of modal parameters (MPs) specifically including modal mass, which is useful for linking loading and response. However, the EMA missed significant useful information, which could be recovered from operational modal analysis (OMA) of additional ambient vibration data recorded during the field measurements, as well as from subsequent long-term monitoring of Wolf Rock lighthouse. Horizontal vibration modes of the towers appear as pairs of modes of similar shape and with close natural frequency due to the quasi-axisymmetric structural form(s), and the lowest frequency pairs are most important to identify since they contribute most to response to breaking wave impact loads. Reliably identifying both the close natural frequencies and the corresponding mode shape orientations was impossible with EMA. Bayesian OMA (BAYOMA) provided the most insight into the modal behaviour, while at the same time providing insight into the fundamental limitations for identifying close modes. Specific conclusions from the OMA described in this paper are: • Due to varying degree of asymmetry in the ‘concave elliptic frustum’ lighthouse shapes, mode frequencies in a pair were found to differ by between 0.75% and 3.8%. • Unlike EMA, OMA was able to identify (or estimate) the horizontal directions of the mode pairs corresponding to the very close natural frequencies. • Visually apparent structural symme, Coastal Engineering

Published

2019

6. Survivability assessment of fastnet lighthouse

Author

Antonini, A. (author), Raby, Alison (author), Brownjohn, James Mark William (author), Pappas, Athanasios (author), D'Ayala, Dina (author), Antonini, A. (author), Raby, Alison (author), Brownjohn, James Mark William (author), Pappas, Athanasios (author), and D'Ayala, Dina (author)

Abstract

Historic rock lighthouses are unusual structures that are situated in hostile marine environments to provide warning to mariners. Even in an era of satellite navigation their role continues to be an important one, but their survivability into the future is not assured. Out of concern for their ongoing service, the multidisciplinary STORMLAMP project is assessing their survivability under wave loading. This paper presents the various stages of investigations into the structural integrity and stability assessment of the Fastnet lighthouse, situated just off the coast of Ireland. The paper describes: Extreme Bayesian analysis to quantify waves of particular return periods resulting in a 1 in 250 year return period wave with H 0.1% of 17.6 m and an associated maximum force of 20,765 kN; logistically challenging field modal tests revealing the key modal parameters, like the modal masses of 1822 t and 1 675 t for 4.8 Hz and 5.0 Hz modes respectively, the cantilevered nature of the overall lighthouse and the directional effects due to the asymmetric contact with the granite rock; and details of a discontinuous finite element model that is used to determine the stability of the tower under the 1 in 250 year return period breaking wave condition, which is well within stability and material strength limits, causing maximum horizontal displacements in the order of 1 mm at the top of the tower. The overall assessment is that the sheer mass of the lighthouse and its interconnected joints are able to withstand the worst of the Atlantic storms., Coastal Engineering

Published

2019

7. Blood and hair as non-invasive trace element biological indicators in growing rabbits

Author

Papadomichelakis, George, Pappas, Athanasios C, Zoidis, Evangelos, Danezis, Georgios, Georgiou, Konstantinos A, Fegeros, Konstantinos, Papadomichelakis, George, Pappas, Athanasios C, Zoidis, Evangelos, Danezis, Georgios, Georgiou, Konstantinos A, and Fegeros, Konstantinos

Abstract

[EN] The suitability of blood and hair as non-invasive tools to monitor trace element contents was studied in 48 Hyla male growing rabbits. Three diets with increasing organic selenium (Se) addition (0.1, 0.5 and 2.5 mg/kg) were used to induce alterations in the concentrations of trace elements vs. an unsupplemented diet. In blood, a linear decrease in Co (P<0.001), Cu (P<0.001), Mn (P<0.05), Zn (P<0.05), Sb (P<0.001), As (P<0.001), Cr (P<0.001), Mo (P<0.001), Ni (P<0.001) and Cd (P<0.001) concentrations with increasing dietary Se was observed. In hair, a cubic effect of dietary Se on Co (P<0.01), Cu (P<0.05), Mn (P<0.001), Pb (P<0.05), Mo (P<0.05) and Cd (P<0.05) concentrations was found, while As, Cr and Ni concentrations decreased linearly (P<0.01, P<0.01 and P<0.001, respectively) with increasing dietary Se. Selenium was negatively correlated to Sb, As, Cr, Mo, Ni and Cd, (P<0.001) in blood, and to As (P<0.05), Cr, Ni (P<0.01) and Pb (P<0.05) in hair. The contents of Se, As, Cr and Ni in blood were highly correlated (P<0.001) to those in hair. Blood appeared to be more sensitive than hair in detecting small changes in the trace element profile in rabbits, as was indicated by the discriminant analysis. In conclusion, blood and hair can be suitable biological indicators of essential, toxic and potentially toxic trace element status in rabbits, particularly when used complementarily.

Published

2019

8. Comparison of coherence scanning interferometry, focus variation and confocal microscopy for surface topography measurement

Author

Hooshmand, Helia, Liu, Mingyu, Pappas, Athanasios, Thompson, Adam, Leach, Richard, Piano, Samanta, Hooshmand, Helia, Liu, Mingyu, Pappas, Athanasios, Thompson, Adam, Leach, Richard, and Piano, Samanta

Abstract

The most common optical technologies for surface topography measurement are coherence scanning interferometry (CSI), focus variation microscopy (FV) and imaging confocal microscopy (CM). Due to the benefits and drawbacks of each, these instruments are all suited to different measurement tasks, depending on the features present on the surface. In this paper, the surface topographies of two surfaces (an optical flat and a metal additive manufactured [AM] surface) with different slope angles were measured using CSI, FV and CM techniques, on an instrument capable of exploiting all three technologies using interferometric (CSI) and brightfield (FV and CM) 50× magnification objective lenses. Measurement noise obtained by CSI presents a significantly lower value than other technologies due to its sub-nanometre vertical resolution. The surface topography of a 30° tilted optically smooth surface shows the ability of CM to measure higher slope angles compared to CSI, due to the relatively higher numerical aperture of brightfield objective lenses. Although the contrast-based reconstruction algorithm prevents FV from reconstructing smooth surfaces for the instrument used, it makes FV a powerful means for surface topography measurement of complex AM surfaces; verified by comparing the surface topographies of an AM surface obtained by FV, CM and CSI.