120,331 research outputs found

    aE Journal 2015/2016: aE/INTECTURE innovating architecture

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    The graduation studio of Architectural Engineering focuses on the integration of (new) technology in architecture. For this purpose, the name aE/ INTECTURE® was devised, which will be developed further as a brand in the coming years. Students start with a technical fascination and translate this into an architectural concept, finally being able to implement this within the environment in a responsible way. ‘If technology is the answer, what is the question?‘ Under the guidance of a team of enthusiastic (guest) lecturers, students search for the dot on the horizon that is necessary for coming up with solutions that improve the quality of the built environment and make it more sustainable. In addition, either the ‘making‘ (make) or ‘the energy and material flow’ (flow) is used and applied as a basis in different contexts.Architectural Engineerin

    An Investigation of Acoustic Emission Responses of a Self Aligning Spherical Journal Bearing

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    High power industrial machinery such as steam turbines and large pumps use journal bearings as rotor supports because this type of bearing is a high load carrying capacity. However, abnormal operating conditions in the journal bearings will degrade machine performance, shorten life time and increase the risk of operation. Bearing condition monitoring can detect faults at early stage and hence minimise the occurrence of catastrophic failures. Vibration measurement from an accelerometer is an effective method for monitoring journal bearing. However, due to frequency limitation, it cannot give accurate monitoring results when the bearing produces high frequency excitations such as asperity contacts. For overcoming the limits, acoustic emission (AE) is required for detecting early faults in self aligning journal bearings in high frequency ranges. AE source in journal bearings may originate from sliding friction. The friction in sliding bearings depends on lubricated regions which are influenced by load, speed, lubricant viscosity and bearing conditions. When bearing is operated in boundary lubricated region more asperity contact occurs and generates large AE responses. Hydrodynamic lubrication means that the bearing surfaces are completely separated by oil film, almost there is not severity contact and hence creates very small AE signal. Mixed lubrication occurs between boundary and hydrodynamic lubrication range and creates medium of AE value. The result of AE experiment for self-aligning spherical journal bearing indicates that AE can detect bearing fault in high frequency range till 15000 Hz. For addition there is a positive correlation between speed, load and AE RMS value. For lubricant, if the lubricant has higher viscosity, it generates smaller AE amplitude. The AE characteristic also shows that AE RMS value relates to the friction curve

    An investigation on the diagnostics and prognostic capabilities of acoustic emission (AE) on a spur gearbox

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    The aim of this research project is to explore a new technique, Acoustic Emission (AE), on both the diagnostic and prognostic capabilities in monitoring gear teeth degradation (pitting), and compare with the more widely used techniques such as vibration monitoring and Spectrometric Oil Analysis (SOA). Furthermore, by employing the experimental results and past literature, a model in predicting the amount of gear surface pitting wear using AE activity level was proposed. The successful forinulation of this proposed model may be able to predict the remaining life of the gear after pitting has been detected, thereby allowing timely replacement to be carried out without the risk of catastrophic failure. A series of experimental tests which include seeded defect simulations, study on the effect of operating parameters over AE (under isothermal conditions), AE source determination tests and accelerated gear fatigue tests have been performed to investigate the diagnostics and prognostics capabilities of AE via a back-to-back gearbox set up. The experimental results achieved have highlighted some significant findings: (a) The variation in rotating speeds, change the AE levels in a much significant amount as compared to the same variation in applied load. (b) The prime source of AE was postulated to be asperity contact under rolling and sliding of the meshing gear teeth surfaces. (c) AE technique has a far better degradation (pitting) monitoring capability compared to vibration and SOA techniques. These findings have made a vast contribution in condition monitoring of gearbox using AE technique and the proposed model has also offered opportunity to make AE a potentially viable and effective tool in diagnosis and prognosis of gearbox or even other rotating machinery defects

    Scaling of solar wind e and the AU, AL and AE indices as seen by WIND

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    We apply the finite size scaling technique to quantify the statistical properties of fluctuations in AU, AL and AE indices and in the parameter that represents energy input from the solar wind into the magnetosphere. We find that the exponents needed to rescale the probability density functions (PDF) of the fluctuations are the same to within experimental error for all four quantities. This self-similarity persists for time scales up to ~4 hours for AU, AL and and up to ~2 hours for AE. Fluctuations on shorter time scales than these are found to have similar long-tailed (leptokurtic) PDF, consistent with an underlying turbulent process. These quantitative and model-independent results place important constraints on models for the coupled solar wind-magnetosphere system

    Condition Monitoring of Helical Gears Using Acoustic Emission (AE) Technology

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    Techniques such as vibration monitoring, thermal analysis and oil analysis are well established as means to have been used to improve reliability of gearboxes and extend time-to-failure. In this area Acoustic Emission (AE) technology is still in its infancy but the attention shown by researchers towards this method has increased dramatically because several studies have shown the AE offers the important advantage of improved sensitivity over more conventional monitoring tools for the early detection and prediction of gear failure. Helical gear lubrication is critically important for maintaining the integrity of operating gears and the oil also prevents asperity contact at the gear mesh thereby protecting the gears from a deterioration process and surface failures. In gear systems, there are three types of lubrication regimes: Dry Running, Boundary Lubrication (BL), Hydrodynamic Lubrication (HL) and Elastohydro-dynamic Lubrication (EHL). The last regime is associated with the normal operating running condition of gears. Acoustic emissions were acquired from gears and analysed for different lubrication regimes (dry, BL, HL and EHL regimes at different temperatures), and corresponding specific film thicknesses (λ) levels. The results showed an inverse relationship between AE signal levels and specific film thickness (λ) of the oil. This relation was used to determine the lubrication regime from the measured AE signals. For instance, dry running had the highest AE levels which were attributed to the metal-to-metal contact of the gear mesh. The BL regime had relatively high AE levels which also attributed to the level of asperity contact is greater than the oil film thickness. The HL regime was characterized by the lowest AE levels due to the lubricant oil completely separating the teeth during gear meshing. Finally, the EHL regime showed intermediate AE levels compared to the BL and HL regimes because the oil film was less than for the HL regime but greater than for the BL regime. It is shown that the application of advanced signal processing methods is necessary for monitoring helical gears; Kurtosis and Spectral Kurtosis were used to investigate the AE signatures and found to be effective in de-noising (spectral kurtosis) acquired signals. Acoustic Emission proved to be a powerful tool to detect the oil regime for both defective and non-defective conditions. It is concluded that the experimental findings of this research programme will provide the foundations for significant advancement in the application of AE for the determining the lubrication regime present within a helical gearbox and for the detection of developing gear faults. This should give a new impetus in the field of maintenance and prevention of human and material catastrophes. Several papers presenting the findings of this research have been published in international journals and given at conferences

    cty12/pldi2024-ae: PLDI AE Release 1

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    <p>Please download the Docker image tarball below: <code>pldi2024-ae_latest.tar.gz</code>. To get started with the artifact evaluation process, please follow the <code>README.md</code> in the root directory of the source code zip file: <code>pldi2024-ae-release-20240306.zip</code>. If you instead prefer viewing this repository on GitHub, please <a href="https://github.com/cty12/pldi2024-ae" target="_blank" rel="noopener">follow the link here</a>. </p&gt

    An experimental investigation into the correlation between Acoustic Emission (AE) and bubble dynamics

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    Bubble and cavitation effects phenomena can be encountered in two-phase gas-liquid systems in industry. In certain industries, particularly high-risk systems such as a nuclear reactor/plant, the detection of bubble dynamics, and the monitoring and measurement of their characteristics are necessary in controlling temperature. While in the petro-chemical engineering industry, such as oil transportation pipelines, the detection and monitoring of bubbles/cavitation phenomena are necessary to minimise surface erosion in fluid carrying components or downstream facilities. The high sensitivity of Acoustic Emission (AE) technology is feasible for the detection and monitoring of bubble phenomena in a two phase gas-liquid system and is practical for application within the industry. Underwater measurement of bubble oscillations has been widely studied using hydrophones and employing acoustic techniques in the audible range. However, the application of Acoustic Emission (AE) technology to monitor bubble size has hitherto not been attempted. This thesis presents an experimental investigation aimed at exploring AEs from gas bubble formation, motion and destruction. AE in this particular investigation covers the frequency range of between 100 kHz to 1000 kHz. The AE waveform analysis showed that the AE parameter from single bubble inception and burst events, i.e. AE amplitude, AE duration and AE energy, increased with the increase of bubble size and liquid viscosity. This finding significantly extends the potential use of AE technology for detecting the presence of bubbles in two-phase flow. It is concluded that bubble activity can be detected and monitored by AE technology both intrusively and non-intrusively. Furthermore, the bubble size can be determined by measurement of the AE and this forms the significant contribution of this thesis

    aE Journal 2017/2018: aE/Intecture innovating architecture

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    Driven by the need to think differently about resources, energy, power generation, the choice of materials, and user involvement, we see the built environment in a new perspective. The program, Architectural Engineering, seeks for innovative and inspiring architectural solutions for social and environmental issues throughout all scales.To achieve this, innovation of the architectural challenge is high on our agenda. Innovation is more than just a technical improvement. How do you implement new current issues in modern architecture? We anticipate new energy, materials, and circularity. We also use the current environment of the metropolis and the countryside. We add new buildings, strengthen existing stock, and work on new components of buildings. From high to low tech. From digital to traditional, looking carefully to the context.Architectural Engineerin

    Hyang Ae Shin

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    학위논문(박사)--아주대학교 일반대학원 :의학과,2014. 2TABLE OF CONTENTS ABSTRACT i TABLE OF CONTENTS iii LIST OF FIGURES vi LIST OF TABLES vii PART ONE : Effect of Epicatechin against Radiation-Induced Oral Mucositis : In Vitro and In Vivo Study Ⅰ. INTRODUCTION 1 Ⅱ. MATERIALS AND METHODS 3 A. Cell lines and irradiation conditions 3 B. Cell viability assay 3 C. Terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-biotin nick end labeling (TUNEL) assay 4 D. Annexin V-fluorescein isothiocynate (FITC)/propidium iodide (PI) double staining 4 E. Mitochondrial membrane potential assay 4 F. Measurement of intracellular ROS production 5 G. Western blot assay 5 H. Animal study 6 I. Assessment of radiation damage in rats 7 J. TUNEL staining in rats 8 K. Immunohistochemical analysis in rats 8 L. Statistical analyses 9 Ⅲ. RESULTS A. Pretreatment with EC increased viability of irradiated HaCaT cells 10 B. EC protected HaCaT cells against radiation-induced apoptosis 12 C. EC inhibited radiation-induced changes in the mitochondrial membrane potential 15 D. EC inhibited intracellular ROS generated by radiation 17 E. Inhibition of MAPK activity by epicatechin rescued the HaCaT cells from radiation induced cytotoxicity 20 F. EC restored the oral intake, weight loss, and survival rate of irradiated rats 22 G. EC inhibited histopathologic changes of oral mucosa by irradiation in rats 26 H. EC reduced radiation-induced apoptosis in rat oral mucosa 29 IV. DISCUSSION 32 V. CONCLUSION 37 PART TWO : Radioprotective effect of epicatechin in cultured human fibroblasts and zebrafish Ⅰ. INTRODUCTION 38 Ⅱ. MATERIALS AND METHODS 40 A. Cell lines and irradiation conditions 40 B. Cell viability assay 40 C. Colony-forming assay 41 D. Wound-healing assay 41 E. Mitochondrial membrane potential assay 42 F. Measurement of intracellular ROS production 42 G. Western blot assay 43 H. Radioprotective effects on zebrafish 43 I. Statistical analyses 44 Ⅲ. RESULTS A. Epicatechin increased the viability and migration capability of irradiated primary cultured fibroblasts 45 B. Epicatechin inhibited radiation-induced decrease of mitochondrial membrane potential (MMP) 49 C. Epicatechin inhibited intracellular ROS generated by radiation 51 D. Inhibition of MAPK activity by epicatechin rescued the primary cultured fibroblasts from radiation-induced cytotoxicity 53 E. Epicatechin protects zebrafish embryos from radiation cytotoxicity 55 IV. DISCUSSION 57 V. CONCLUSION 62 REFERENCES 63 국문요약 72DoctoralRadiotherapy has become increasingly important for treatment of head and neck squamous cell carcinoma. Oral mucositis, associated with both radiation and chemotherapy, is a very common, painful, and dose-limiting toxicity, with an incidence that can be as high as 90%. Exposure of normal tissue to radiation can cause both acute and chronic toxicities including dermatitis, xerostomia or mucositis, and this can result in not only a cessation of the intended therapy, but also a decrease in quality of life for the patient. There has been a lot of effort to reduce the radiation toxicities, mainly by focusing on technological improvements in radiation delivery. Also, many radioprotective agents have been attempted to prevent radiation-induced mucositis. Despite this, no intervention has yet been completely successful in preventing radiation-induced mucositis. Green tea consumed in a balanced and controlled diet improves anti-oxidative status and can protect against oxidative damage. Beneficial activities attributed to green tea extracts and/or constituents include antibacterial, antiviral, antioxidative, antitumor, and antimutagenic activities. Furthermore, green tea extract can scavenge nitric oxide (NO) and superoxide anions (O2 −) very effectively. Epicatechin (EC), a component of green tea, prevents cisplatin and radiation-induced, ROS-mediated ototoxicity and prevents changes in mitochondrial membrane potential. EC is among the important constituents responsible for the protective and antioxidant effects exhibited by green tea and is also active in lessening ionizing radiation-induced damage to DNA. However, the effect of EC as a radioprotective agent has not been investigated. In this study, the therapeutic effects and protective mechanism of epicatechin on radiation-induced oral mucositis were investigated in HaCaT human keratinocyte line, primary cultured human fibroblasts, and in vivo in rat and zebrafish model. EC significantly inhibited radiation-induced apoptosis, change of MMP, and intracellular ROS generation in HaCaT cells and fibroblasts. EC treatment markedly attenuated the expression of p-JNK, p-38, and cleaved caspase-3 after irradiation in the HaCaT cells and fibroblasts. EC represents an effective means of reducing cellular damage and facilitating wound healing after radiation exposure. Rats with radiation-induced oral mucositis showed decreased oral intake, weight and survival rate, but oral administration of EC significantly restored all three parameters. Histopathologic changes were significantly decreased in the EC-treated irradiated rats. TUNEL staining of rat oral mucosa revealed that EC treatment significantly decreased radiation-induced apoptotic cells. Also EC attenuated the radiation-induced embryotoxicity in a zebrafish model. Although larger numbers of animals and clinically relevant fractionation schemes are necessary to confirm the effect of EC, these results suggest the possibility of EC to inhibit radiation-induced oral mucositis, a common complication in radiotherapy of head and neck cancers. EC may be a safe and effective candidate treatment for the prevention of radiation-induced mucositis

    Strain rate and temperature dependence of Omori law scaling constants of AE data: Implications for earthquake foreshock-aftershock sequences

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    Little is known about the temperature and strain rate dependence of acoustic emission AE activity (AE). Hence, we carried out a preliminary series of flow-through triaxial compression tests on porous sandstones at different temperatures and strain rates. The AE data exhibits clear foreshock and aftershock sequences with respect to the dynamic failure of the test specimen. Significant AE activity starts less than 5 min before sample failure irrespective of the strain rate. The increase in the AE event rate is steeper and the foreshock exponent p′ is smaller in the slow strain rate tests. It could be the reason why there are no easily recognisable foreshock sequences for most individual earthquakes. The aftershock decay parameter p is a linear function of test temperature as it has also been inferred for natural seismicity. The seismic b-value decreases systematically with increasing deformation rate suggesting a greater proportion of small cracks in the slow strain rate tests. Hence, the AE activity is a function of both strain rate and temperature
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