Your search keyword '"Dutton AG"' showing total 139 results

1. Examen par émission acoustique et évaluation de l'endommagement de pales d'éolienne

Author

Dutton, AG, primary, Blanch, MJ, additional, Vionis, P, additional, Lekou, D, additional, van Delft, DRV, additional, Joosse, P, additional, Anastassopoulos, A, additional, Kouroussis, D, additional, Kossivas, T, additional, Philippidis, T, additional, Fernando, G, additional, Doyle, C, additional, and Proust, A, additional

Published

2007

2. Cataract extraction in a fur seal.

Author

Dutton AG

Subjects

Animals, Male, Cataract Extraction veterinary, Fur Seals surgery

Abstract

Cataracts are common in pinnipeds, but ocular examination and surgery are complicated because of the small pupil, which is difficult to dilate with mydriatics. Vision was evident after a cataract was removed from a fur seal, using a manual technique of irrigation and aspiration. Access to the lens was limited by the constricted pupil, which could not be dilated with tropicamide, phenylephrine, or atropine.

Published

1991

3. Reconstruction of deep and perforating corneal defects in dogs-A review (Part III/III): The use of corneal sutures and reporting of ocular discomfort.

Author

Sanchez RF

Abstract

The surgical reconstruction of severe corneal disease is a common and crucial component of the clinical practice of veterinary ophthalmology. The first part of the present review described procedures that utilize autogenous ocular tissues, homologous donor tissues, and heterologous donor tissues in dogs, while the second part reviewed the use of biomaterials and keratoprosthetics in this species. This third part is dedicated to the review of the use of corneal sutures including suture type and suture pattern in corneal reconstruction of small animals including dogs and cats. The review also focused on the way studies report postoperative ocular discomfort/pain and how this is treated. Lastly, the author briefly presents the simple but effective techniques available to bury corneal knots for corneal reconstructive surgery in small animal patients, such as the "tugging" and "deep-superficial-superficial-deep" methods for simple interrupted sutures, and the adaptation of the latter for simple continuous sutures., (© 2024 American College of Veterinary Ophthalmologists.)

Published

2024

4. Reconstruction of deep and perforating corneal defects in dogs-A review (Part I/III): Autogenous ocular tissues, donor tissues, and corneal clarity scoring.

Author

Sanchez RF, Ledbetter EC, and Leiva M

Abstract

Corneal reconstruction is a key part of veterinary ophthalmic practice and numerous reconstructive techniques have been described for use in small animals in the peer-reviewed veterinary literature written in English. Despite the evidence accrued over the last six decades in over 40 clinical articles and numerous other publications on ocular surface health, several key areas require further study. The comparison between studies is difficult due to elements that go beyond common factors, such as the indication for surgery, the reconstructive technique preferred by the surgeon or the availability of reconstructive materials. However, the differences in reporting style adopted by different authors between similar studies and the lack of data found in retrospective studies add to this complexity. The present review is divided into three parts. One covers the use of autologous materials for reconstruction and corneal transplants, as well as corneal clarity. A second part focuses on biomaterials and keratoprosthetics, while the third part focuses on the use of corneal sutures and report of ocular discomfort/pain in the veterinary literature. The review focuses on the main findings of each reconstruction technique. It aims to identify areas where key information about common procedures is missing so that general guidelines may be provided for the planning of patient record keeping and future retrospective or prospective studies, while it also aims to highlight the presence of knowledge gaps that deserve further attention., (© 2024 American College of Veterinary Ophthalmologists.)

Published

2024

5. Numerical modelling and simulation analysis of wind blades: a critical review.

Author

Alrowwad, Ibrahim, Wang, Xiaojia, and Zhou, Ningling

Subjects

WIND turbine efficiency, CLEAN energy, COMPUTER simulation, RENEWABLE energy sources, WIND power

Abstract

Wind energy has emerged as a promising renewable energy source and wind turbine technology has developed rapidly in recent years. Improved wind turbine performance depends heavily on the design and optimization of wind blades. This work offers a critical evaluation of the state of the art in the field of numerical modelling and simulation analysis, which have become crucial for the design and optimization of wind blades. The evaluation of the literature includes considerable research on the application of numerical methods for the structural and aerodynamic performance of wind blades under various operating situations, as well as for analysis and optimization of wind blades. The article illustrates how numerical techniques can be used to analyse wind blade performance and maximize design efficiency. The study of blade performance under various wind conditions has also been made possible through the use of simulation analysis, thus enhancing the efficiency and dependability of wind turbines. Improvements in wind turbine efficiency and dependability, and ultimately the move towards a more sustainable energy future, will be greatly helpful for the development of numerical modelling and simulation techniques. [ABSTRACT FROM AUTHOR]

Published

2024

6. Optimising treatment approaches for feline corneal sequestra to improve long‐term clinical outcomes.

Author

Linn‐Pearl, Rose

Published

2023

7. A review of geographic information system (GIS) and techno economic (TE) software tools for renewable energy and methodology to develop a coupled GIS-TE software tool for marine renewable energy (MRE).

Author

O'Connell, Ross, Murphy, Jimmy, Devoy McAuliffe, Fiona, and Dalton, Gordon

Abstract

Accurate and up-to-date Geographic Information System (GIS) and Techno Economic (TE) tools are pertinent to helping to develop the renewable energy sector. This paper reviews the state of the art in existing GIS and TE tools for renewable energy and proposes a methodology to develop a coupled GIS-TE software tool that is geared specifically to Marine Renewable Energy (MRE) applications and bespoke to Irish and Western UK waters. Methods for approaching GIS and TE analysis within existing tools for renewable energy are presented and compared. Many existing tools of this nature have some interesting functionalities, but most are unsuitable for MRE; are limited by a lack of information on both the technology and the site; and focus solely either on GIS or TE aspects of analysis. Additionally, almost all of those with a TE focus are not open access. The proposed tool aims to incorporate increased resolution and site relevance of resource data; the most up-to-date geospatial data for site selection; and will provide site specific TE indicators and recommendations for contemporary MRE devices. The result will be the development of an open-access GIS-TE software tool for MRE. [ABSTRACT FROM AUTHOR]

Published

2023

8. The titanium/silicone rubber clip for female sterilization.

Author

Filshie GM, Casey D, Pogmore JR, Dutton AG, Symonds EM, and Peake AB

Subjects

Adolescent, Adult, Female, Humans, Laparoscopy methods, Ligation instrumentation, Middle Aged, Silicone Elastomers, Sterilization, Tubal adverse effects, Sterilization, Tubal methods, Titanium, Sterilization, Tubal instrumentation

Abstract

A composite titanium/silicone rubber clip has been developed for female sterilization. The 12.7 mm long metal clip is lined with silicone rubber and is bent round the Fallopian tube by means of an applicator that can be used laparoscopically. As tubal necorsis occurs, the rubber expands to keep the lumen blocked. The tube eventually divides and the stumps heal closed. Since the Mark 3 version of the clip was introduced, over 5700 women in several countries have been sterilized. The first 540 British women who were followed-up for five to 17 months experienced one method failure (ectopic) and tow operator failures, to total failure rate of 5.5/1000. Clip-related complications were minimal and long-term sequelae were comparable to tubal ligation. The clip causes minimal destruction but still seems effective for tubal occlusion and it can accommodate thick tubes.

Published

1981

9. Estimation of wind characteristics at different topographical conditions using doppler remote sensing instrument—a comparative study using optimization algorithm.

Author

Shende, Vikas, Patidar, Harsh, Baredar, Prashant, and Agrawal, Meena

Subjects

OPTIMIZATION algorithms, REMOTE sensing, STANDARD deviations, PARTICLE swarm optimization, EVOLUTIONARY algorithms, GOODNESS-of-fit tests, INSTRUMENTAL variables (Statistics)

Abstract

This study uses novel evolutionary algorithms and computational techniques to analyze wind potential on flat, complex coastal, and offshore sites utilizing mast as well as remote sensing data. The wind data were recorded using remote sensing technique and conventional technique. The optimum Weibull parameters are estimated using nine methods. The genetic algorithm, particle swarm optimization, and TLBO algorithms are compared and evaluated. The goodness of fit test, such as root mean square error test (RMSE), mean absolute percentage error (MAPE), coefficient of determination (R2), and chi-square test (X2), is used to evaluate the accuracy of the selected methods. Parameter estimates are used to compute wind densities. The TLBO and PSO algorithms outperformed genetic algorithms in terms of efficiency. This research compares remote sensing measurements to cup anemometer measurements. [ABSTRACT FROM AUTHOR]

Published

2023

10. Synthesis, structural characterization, reactivity and catalytic activity of mixed halo/triflate ArI(OTf)(X) species.

Author

Sharp-Bucknall, Lachlan, Sceney, Marcus, White, Keith F., and Dutton, Jason L.

Subjects

CATALYTIC activity, WATER chlorination, SPECIES, CHLORINATION, AROMATIC compounds, LIGANDS (Chemistry)

Abstract

Both mixed λ3-iodoarenes and λ3-iodoarenes possessing –OTf ligands are coveted for their enhanced reactivities. Here we describe the synthesis, reactivity, and comprehensive characterisation of two new ArI(OTf)(X) species, a class of compound that were previously only invoked as reactive intermediates where X = Cl, F and their divergent reactivity with aryl substrates. A new catalytic system for electrophilic chlorination of deactivated arenes using Cl2 as the chlorine source and ArI/HOTf as the catalyst is also described. [ABSTRACT FROM AUTHOR]

Published

2023

11. Techno-economic Analysis of Wave Energy Resource for India.

Author

Patel, Ravi P., Nagababu, Garlapati, Kachhwaha, Surendra Singh, Surisetty, V. V. Arun Kumar, and Seemanth, M.

Abstract

A major challenge to the emergence and establishment of new energy technologies such as ocean wave energy is the insufficient or nonexistent database for estimating resource potential. Despite having an extensive coastline, wave energy sources are yet to be developed in India. Hence, the main objective of this study is to identify the potential sites and assess the technical and economic feasibility of harnessing wave energy along the Indian coast. Three hotspots are identified in three coastal regions (east, south and west) based on optimum hotspot index and depth constrain criterion using 19 years of high-resolution wave hindcast. Results indicate that the theoretical potential of location along the west coast (12 kW/m) is highest as compared to a hotspot near the south (8 kW/m) and east coast (6 kW/m). The technical potential and cost of electricity generation at hotspot locations are estimated and compared using four different wave energy converters (WECs): Wavedragon, Pelamis, Oceantec, and Aquabuoy. Oceantec, among all WECs, generates more power (40–57 GWh) and attain a maximum capacity factor (22–31%) as well as the most cost-effective WEC with the lowest Levelized Cost of Energy (LCOE) ranging from 354 to 505 €/MWh at all hotspots. Economic sensitivity analysis reveals that interest rate and operation and maintenance costs are the most and least sensitive parameters, respectively. Outcomes of the present study will contribute to reducing the barriers to the current knowledge of wave energy resources in India. [ABSTRACT FROM AUTHOR]

Published

2023

12. Kinetic study on the activation of PhICl2 with Lewis bases for aromatic chlorination.

Author

Davis, Benjamin A., Tania, and Dutton, Jason L.

Subjects

LEWIS bases, CHLORINATION, CATALYST supports, AROMATIC compounds

Abstract

A study on the kinetics of the activation of PhICl2 using catalytic chloride or pyridine in electrophilic chlorination of arenes has been carried out. The results indicate that both catalysts induce the release of Cl2 from PhICl2 and that the Cl2 is the active reagent for chlorination in these reactions. [ABSTRACT FROM AUTHOR]

Published

2022

13. Review of the Typical Damage and Damage-Detection Methods of Large Wind Turbine Blades.

Author

Wang, Wenjie, Xue, Yu, He, Chengkuan, and Zhao, Yongnian

Subjects

WIND turbine blades, RENEWABLE energy sources, ACOUSTIC emission, WIND turbines, WIND damage, EARTHQUAKE damage

Abstract

With global warming and the depletion of fossil energy sources, renewable energy is gradually replacing non-renewable energy as the main energy in the future. As one of the fastest growing renewable energy sources, the safety and reliability of wind energy have been paid more and more attention. The size of modern wind turbines is becoming larger and larger. As the main component of wind turbines to capture energy, the blade is often damaged by various complex environments and irregular loads. Therefore, the health monitoring and damage identification of wind turbine blades have become a main research focus. At present, in addition to the overview of various detection methods of wind turbine blades, there is a lack of comprehensive classifications and overviews of the main damage types, damage-generation mechanisms, and basic principles of the damage-detection technology of wind turbine blades. In this paper, firstly, the common fault types of wind turbine blades, such as trailing edge cracking, lightning strike, leading edge corrosion pollution, icing, and delamination, as well as their generation mechanism, are comprehensively analyzed. Then, the basic principles and the latest research progress of the current main detection technologies, such as vision, ultrasonic, thermal imaging, vibration, acoustic emission, and so on, are comprehensively reviewed. The advantages and limitations of the various detection technologies for practical application are summarized. Finally, through a comparative analysis of the various damage-detection technologies, we try to find potential future research directions, and draw conclusions. This paper will provide a reference for understanding the mechanism behind the main damage types and the damage-detection methods of wind turbine blades. It has important reference value for further promoting practical research of wind turbine blade damage-detection technology and grasping this research direction. [ABSTRACT FROM AUTHOR]

Published

2022

14. Feasibility analysis for floating offshore wind energy.

Author

Maienza, Carmela, Avossa, Alberto Maria, Picozzi, Vincenzo, and Ricciardelli, Francesco

Subjects

WIND power, TENSION leg platforms, HARBORS, LIFE cycle costing, OFFSHORE wind power plants, WIND power industry

Abstract

Purpose: The assessment of the economic feasibility of floating offshore wind farms (FOWFs) plays an important role in the future possible spreading of this challenging technology in the wind power industry. The use of specific economic analyses is fundamental to point out the potential of FOWFs and to sustain their technical value. Within this topic, the implementation of the FOWF life cycle cost model and producibility analysis in a geographic information system is developed, with the aim of carrying out a feasibility analysis at the territorial scale, for different types of floater. Moreover, a simplified model for a quick life cycle cost assessment is proposed and calibrated. Methods: The available cost model is first validated comparing the costs of FOWFs based on different floaters (Semi-Submersible Platform—SSP, Spar Buoy—SB and Tension Leg Platform—TLP) with corresponding results available in the literature. Then, it is implemented in QGIS to be used for territorial-scale analyses and sensitivity analyses of the cost parameters. A feasibility analysis is developed through the main financial parameters. Finally, the results are then used to calibrate a simplified version of the cost model that depends on three main parameters, namely distance to shore, distance from the port of operation and bathymetry. Results and discussion: The FOWF cost values are found to be in good agreement with those coming from analytical methods similar to the one from the authors. However, some discrepancies with those based on average costs are observed. Then, the results of the sensitivity analysis are presented as life cycle cost maps, giving an overall picture of the variation of the total cost of FOWF installations on a reference domain. The results show that among the three types of floaters considered here, the SSP proved to be the most promising one, giving lower costs than the SB and the TLP. Moreover, a good agreement between the results in terms of total cost of FOWFs calculated with the analytical and simplified models for SSPs, SBs and TLPs is observed. Finally, the feasibility analysis showed that the financial parameters are more influenced by the wind speed than by the cost of the farm. Conclusions: The paper aims to provide guidance on how to carry out feasibility analyses of a specific site for FOWF installation, thus supporting decision-making procedures. The approach and the results presented here are meant for use in the early stage of the decision-making process, as a tool for the assessment of the economic feasibility of FOWFs installation. [ABSTRACT FROM AUTHOR]

Published

2022

15. Assessment of wind energy technology adoption, application and utilization: a critical review.

Author

Nwaigwe, K. N.

Subjects

INNOVATION adoption, RENEWABLE energy sources, NATURAL disasters, GLOBAL warming, ENERGY economics

Abstract

An overview on the assessment of wind energy technology adoption and the extent of penetration of wind energy as an alternative energy source in different regions of the world is presented. A global scenario of Asia, Americas, Europe and Gulf States were reviewed and particular attention was centred on the successes of wind energy in Africa. The four major drivers—global warming, natural disasters, crisis and agreements—that have affected growth of wind energy technology were discussed. The economics of wind energy technology particularly as a grid connected solution was reviewed, challenges in the roll-out of wind energy technology were also highlighted. Finally, the prospects and future of wind energy as part of the overall energy mix was reviewed. [ABSTRACT FROM AUTHOR]

Published

2022

16. The THESIS model: An assessment tool for transport and energy provision in the hydrogen economy

Author

Dutton, A.G. and Page, M.

Subjects

*HYDROGEN economy, *HYDROGEN as fuel, *ENERGY consumption, *ELECTRICITY, *FUEL cells, *GREENHOUSE gases, *CARBON dioxide mitigation

Abstract

Abstract: A comprehensive energy analysis software tool Tyndall Hydrogen Economy Scenario Investigation Suite (THESIS) has been developed for assessing the impact of major technological shifts in the provision of energy for integrated transport, electrical power, and heating/cooling applications. Historically, transport and electrical power have been treated as independent sectors, but, in the case where hydrogen fuel cells are extensively used in motive applications, complex inter-dependencies arise between the two (e.g., production of hydrogen by electrolysis of water, alternative use of hydrogen for electricity storage and subsequent regeneration). The THESIS model characterises a country''s (or region''s) primary energy flows, energy distribution system, secondary energy production processes (e.g., electricity generation), and end-use consumption, including a major sub-model of the transport sector which keeps track of the size of vehicle fleets and the penetration rate of alternative fuels. The model enables the comparison of varying strategies for hydrogen introduction against the metrics of overall energy consumption, demands for primary fuel, and carbon dioxide emissions reductions. A case study is presented of the application of THESIS to a high hydrogen penetration scenario within the context of the UK energy economy to 2050, selected from a wider study into potential hydrogen scenarios under different contextual futures [Dutton AG, Bristow AL, Page MW, Kelly CE, Watson J, Tetteh A. The hydrogen economy: its long term role in greenhouse gas reduction. Tyndall Centre Final Report, Project No. IT1.26; November 2004, available from: http://www.tyndall.ac.uk/research/theme2/final_reports/it1_26.pdf [last accessed 03 November 2006]. [Copyright &y& Elsevier]

Published

2007

17. Control of damage‐sensitive features for early failure prediction of wind turbine blades.

Author

Janeliukstis, Rims and McGugan, Malcolm

Subjects

WIND turbine blades, ACOUSTIC emission, STRUCTURAL health monitoring, STRUCTURAL failures

Abstract

Summary: The current study focuses on early prediction of structural failure of a composite wind turbine blade (WTB) using acoustic emission (AE) and strain measurement. The structural response of a 14.3‐m blade with embedded artificial defects is investigated under fatigue loading in flapwise direction. The fatigue loading is realized in several successive portions until structural failure. Strain and acoustic emission signals from each portion are recorded. The goal is to explore damage‐sensitive features (DSFs) derived from acoustic emission and strain signals that would be suitable for early indication of blade failure under fatigue. These features include modal characteristics of strain time history, such as natural frequencies, damping ratios, and modal amplitudes. Acoustic emission features explored in this study comprise average frequency centroids based on an amplitude and absolute energy and gradients of cumulative energy curves. Changes of these features before failure relative to the previous loading portion are calculated and compared among different sensor locations with a twofold goal—firstly, to find the features that are the most sensitive to damage accumulation and, secondly, to find a location with the largest relative changes, thus enabling damage localization. The results show that strain and AE signals are correlated well in terms of pinpointing to a location of the largest aggregation of defects. This study gives recommendations of the most efficient feature combination of different measurements for reliable structural health monitoring of wind turbine blades. [ABSTRACT FROM AUTHOR]

Published

2022

18. Prevalence and type of ocular disease in a population of aged captive nondomestic felids.

Author

Nguyen, Laison, Boorstein, Justin, Wynn, Elizabeth R., Welihozkiy, Anja, Baldwin, Terri, Stine, Jessica M., and Miller Michau, Tammy

Subjects

OLDER people, SNOW leopard, FELIDAE, CATS, OPTIC neuritis, PUMAS, HYPERTROPHIC scars

Abstract

Objectives: Report of prevalence and type of ocular disease in a captive population of nondomestic felids. Methods: Medical records of 202 cats from 1993 to 2018 were reviewed. Species, age at diagnosis, sex, ocular examination abnormalities, systemic/physical examination abnormalities, type of examination (visual, sedated, or anesthetized), ocular structures affected, other diagnostics, therapy, and resolution of ocular disease were recorded. Results: A total of 202 nondomestic felids including 18 different species (bobcat, caracal, cougar, Fishing cat, Geoffroy's cat, jaguar, jungle cat, leopard, leopard cat, liger, lion, lynx, ocelot, Sand cat, Savannah cat, serval, snow leopard, and tiger) from a rescue facility were evaluated. Forty‐six ocular lesions were diagnosed in 33 (16.3%) cats from 8 different species (bobcat, caracal, cougar, leopard, lion, ocelot, serval, and tiger) with a mean age of 16 ± 5.9 years at time of diagnosis. Ocular lesions included corneal disease (37%) (ulcerations, perforations, keratitis, corneal scars), cataracts (23.9%), hyphema (8.7%), lens luxation (6.5%), retinal detachment (6.5%), uveitis (4.3%), conjunctival disease (4.3%), retinal degeneration (2.1%), glaucoma (2.1%), and optic neuritis (2.1%). Therapies included medical (topical antibiotics, anti‐inflammatories, serum, etc.) and/or surgical management (enucleation, intracapsular lens extraction, corneoconjunctival transposition, and corneal burr debridement). Conclusions: To the authors' knowledge, this is the first report of the prevalence of ocular disease in a population of captive nondomestic felids. It is difficult to diagnose and treat ocular disease in nondomestic cats due to challenges related to handling, diagnostics, and therapeutics in nondomestic species. Ocular disease seen in this population is similar to that found in domestic cat populations. [ABSTRACT FROM AUTHOR]

Published

2022

19. Rapid estimation of fatigue limit for C45 steel by thermography and digital image correlation.

Author

Colombo, Chiara, Sansone, Mauro, Patriarca, Luca, and Vergani, Laura

Abstract

Combining thermography and Digital Image Correlation (DIC) measurements, this paper aims to experimentally capture the fatigue damage phenomenon in steels, with a methodology allowing to rapidly estimate the fatigue limit. Surface temperatures and displacement fields are collected during fatigue tests performed with blocks of progressively increased stress amplitude, at different stress ratios. Results show that both thermography and DIC-based parameters have bilinear trends as a function of the stress amplitude. These changes in the thermal and mechanical behaviours, highly sensitive to the selected stress ratio, are related to damage initiation due to microplasticity and give a precise and rapid estimation of the fatigue limit. [ABSTRACT FROM AUTHOR]

Published

2021

20. PhICl2 is activated by chloride ions.

Author

Tania, Poynder, Tiffany B., Kaur, Aishvaryadeep, Barwise, Lachlan, Houston, Sevan D., Nair, Akshay J., Clegg, Jack K., Wilson, David J. D., and Dutton, Jason L.

Subjects

CHLORIDE ions, ION sources, CHLORIDE channels, CHLORINATION, ANISOLE, OPEN-ended questions, CHLORIDES

Abstract

A study on the potential activating role of pyridine in the electrophilic chlorination of anisole by PhICl2 has led to the discovery that soluble sources of chloride ions activate PhICl2 in the reaction at catalytic loadings, greatly increasing the rate of chlorination. It is further shown that presence of chloride increases the rate of decomposition of PhICl2 into PhI and Cl2. The specific mechanism by which chloride induces electrophilic chlorination and decomposition of PhICl2 remains an open question. [ABSTRACT FROM AUTHOR]

Published

2021

21. Autologous lamellar keratoplasty for the treatment of feline corneal sequestrum: A retrospective study of 35 eyes (2012–2020).

Author

Michel, Julien, Vigan, Marie, and Douet, Jean‐Yves

Subjects

CORNEA surgery, DIAGNOSIS, RETROSPECTIVE studies, MEDICAL records, THERAPEUTICS

Abstract

Objective: To evaluate the use of autologous lamellar keratoplasty for the treatment of feline corneal sequestrum (FCS). Procedure: The medical records of cats diagnosed with FCS that underwent autologous lamellar keratoplasty between 2012 and 2020 with a minimum of 2 months of follow‐up were reviewed. After keratectomy of FCS, a button adjacent to the corneal limbus was harvested on the same eye and sutured to the recipient bed. A nictitating membrane flap was left in place until the first recheck except for one patient. Postoperative treatment with topical and systemic antibiotics and systemic nonsteroidal anti‐inflammatory medications was prescribed. Follow‐up examinations were carried out 2 weeks, 1 month and 2 months post‐operatively and consisted of a complete ophthalmic examination. Results: A total of 35 cats (35 eyes) were included. The median follow‐up time was 3.2 months (range, 2–59 months). Brachycephalic cats were overrepresented (85.7%). The mean graft size was 6.5 mm (range, 6–9 mm). Minor complications consisting of melting and partial integration of the graft occurred in 2/35 eyes (5.7%). Recurrence was observed in 1/35 eyes (2.9%) and was managed by a superficial keratectomy. A good visual outcome was achieved in all eyes, and a faint or mild corneal opacification occurred in 15/35 (42.9%). Conclusions: Autologous lamellar keratoplasty is an effective treatment for FCS, providing good tectonic support to the affected cornea and resulting in good visual and cosmetic outcomes. These results should be verified in future prospective studies that include a larger number of cases and longer‐term follow‐up. [ABSTRACT FROM AUTHOR]

Published

2021

22. Load control and unsteady aerodynamics for floating wind turbines.

Author

Shen, Xin, Zhu, Xiaocheng, and Du, Zhaohui

Subjects

WIND turbine aerodynamics, AERODYNAMIC load, UNSTEADY flow (Aerodynamics), WIND turbines, DEGREES of freedom, WIND power

Abstract

Unlike fixed-base offshore wind turbine, the soft floating platform introduces 6 more degrees of freedom of motions to the floating offshore wind turbine. This may cause much more complex inflow environment to the wind turbine rotors compared with fixed-base wind turbine. The wind seen locally on the blade changes due to the motions of the floating wind turbine platform which has a direct impact on the aerodynamic condition on the blade such as the angle of attack and the inflow velocity. Such unsteady aerodynamic effects may lead to high fluctuation of the loads and power output. The present work aims to study the high unsteady aerodynamic performance of the floating wind turbine under platform surge motion. The unsteady aerodynamic loads are predicted with a lifting surface method with a free wake model. A preview predict control algorithm is used as the pitch control strategy. A full scale U.S. Department of Energy's National Renewable Energy Laboratory (NREL) 5 MW floating wind turbine is chosen as the subject of the present study. The unsteady aerodynamic performance and instabilities have been discussed in detail under prescribed platform surge motions with different control targets. Both minimizing the power output and rotor thrust fluctuation are set as the control objectives respectively. The theory analysis and the simulation results indicate that the blade pitch control can effectively alleviate the variation of the rotor thrust under platform surge motions. Larger amplitude of the variation of blade pitch is needed to alleviate the variation of the wind turbine power and this leads to high rotor thrust fluctuation. It is also shown that negative damping can be achieved during the blade pitch control process and may lead the floating platform wind turbine system into unstable condition. [ABSTRACT FROM AUTHOR]

Published

2021

23. Wind turbine blade structural state evaluation by hybrid object detector relying on deep learning models.

Author

Sarkar, Dipu and Gunturi, Sravan Kumar

Abstract

Surveillance drones are remarkable devices for monitoring, as they have strong spatial and remote sensing capabilities. The prompt detection of peripheral damage to the blades of wind turbines is necessary to reduce downtime and prevent the potential failure of wind farms. Computer vision breakthroughs with deep learning have developed and been refined over time, mainly using convolution neural networks. From this perspective, we suggest a deep learning model for monitoring and diagnosing the blade health of wind turbines based on images captured by surveillance drones. The main limitations of standard monitoring devices are their poor detection accuracy and lack of real-time performance, making it complex to obtain the attributes of blades from aerial images. Based on the foregoing, this study introduces a method for increasing detection accuracy when carrying out operations in real time using You Only Look at Once version 3 (YOLOv3). We train and evaluate three deep learning models on the wind turbine image dataset. We find that many aerial images are unclear because of blurred motion. As avoiding such low-resolution images for training can affect accuracy, we use a super-resolution convolution neural network to reconstruct a blurred picture as a high-resolution one. The computational results demonstrate that YOLOv3 outperforms traditional models in terms of both accuracy and handling time. [ABSTRACT FROM AUTHOR]

Published

2021

24. Is geopolitics a threat for offshore wind energy? A case of Indian Ocean Region.

Author

Aswani, RS, Sajith, Shambhu, and Bhat, Mohammad Younus

Subjects

WIND power, ENERGY development, OCEAN, GEOPOLITICS

Abstract

The aim of this paper is to drive the discourse towards the increasing shift to renewables, especially offshore wind energy generation, in the emerging international energy order. The Indian Ocean Region (IOR), despite its increasing contribution to onshore wind energy generation and impending policies on offshore wind energy, is reluctant to invest in the latter. Hence, this paper highlights four important aspects that challenge IOR's offshore wind energy development: Indian Ocean's strategic location, environment impacts, blue economy and maritime terrorism. In the background of the geopolitical rivalry existing in the Indian Ocean Region (IOR), with the increasing presence of China and the USA in the Indian Ocean, this paper aims to study if these geopolitical challenges are hindering offshore wind energy generation in IOR. The key findings of the paper include the necessity of addressing the geopolitical rivalry in IOR as an important hindrance in huge investments needed in OWE farms, so that a regional cooperative mechanism is arrived at especially from the point of view of policies towards OWE generation. [ABSTRACT FROM AUTHOR]

Published

2021

25. A GIS-based multi-criteria model for offshore wind energy power plants site selection in both sides of the Aegean Sea.

Author

Tercan, Emre, Tapkın, Serkan, Latinopoulos, Dionysis, Dereli, Mehmet Ali, Tsiropoulos, Anastasis, and Ak, Muhammet Fatih

Subjects

OFFSHORE wind power plants, OCEAN zoning, PLANT selection, GEOGRAPHIC information systems, ENVIRONMENTAL protection, WIND speed

Abstract

Location selection for offshore wind farms is a major challenge for renewable energy policy, marine spatial planning, and environmental conservation. This selection constitutes a multi-criteria decision-making problem, through which parameters like wind velocity, water depth, shorelines, fishing areas, shipping routes, environmental protection areas, transportation, and military zones should be jointly investigated. The aim of the present study was thus to develop an integrated methodology for assessing the siting of bottom-fixed offshore wind farms in two different countries (with different legal, political, and socio/economic characteristics). Our methodology combined multi-criteria decision-making methods and geographical information systems and was implemented in Cyclades (Greece) and in the sea area of İzmir region (Turkey). Experts used fuzzy sets and linguistic terms to achieve more consistent and independent rankings and results. In the Turkish region, the results showed that 519 km2 (10.23%) of the study area is suitable for offshore wind farms, while in the Greek region, only 289 km2 (3.22%) of the study area was found to be suitable. This spatial suitability analysis may contribute to provide some useful recommendations for the spatial marine planning at the regional scale, as well as for the preliminary assessment of new offshore wind farms in both countries. [ABSTRACT FROM AUTHOR]

Published

2020

26. Damage detection for wind turbine rotor blades using airborne sound.

Author

Krause, Thomas and Ostermann, Jörn

Subjects

WIND turbine blades, ACOUSTIC emission, WIND damage, DAMAGE models, WIND turbine efficiency, SOUND waves, ACOUSTIC signal processing

Abstract

Summary: When operating a wind turbine, damage of rotor blades is a serious problem. Undetected damages are likely to increase overtime, and therefore, the safety risks and economical burdens also increase. A monitoring system, which detects reliably defects in early stages, gives scope for action and is therefore a key element to avoid damage increase and to optimize the efficiency of wind turbines. One promising approach for damage detection is acoustic emission methods. Although most acoustic emission approaches use ultrasonic sound waves of the structure that require about 12 to 40 sensors to monitor one rotor blade, we propose to use the airborne sound in lower frequencies from about 500 Hz to 35 Hz with three optical microphones and present a signal model‐based damage detection algorithm. The real‐time algorithm uses six audio features from a spectrogram representation to detect damages and to estimate its significance. In a fatigue test of a 34‐m blade, the algorithm detected the damage event and damage increasing without false detection. It was also tested with recordings inside an operating blade of a 3.4‐MW wind turbine. In the recorded time period of about 1 year, the algorithm indicated no false detection. [ABSTRACT FROM AUTHOR]

Published

2020

27. Passive acoustic damage detection of structural cavities using flow-induced acoustic excitations.

Author

Beale, Christopher, Willis, David J, Niezrecki, Christopher, and Inalpolat, Murat

Subjects

ACOUSTIC excitation, DAMAGE models, WIND turbine blades, STRUCTURAL health monitoring, SOUND pressure, WIND tunnel testing, SUBSONIC flow

Abstract

Cavities with different geometries represent the internal volumes of various engineering applications such as cabins of passenger cars, fuselages and wings of aircraft, and internal compartments of wind turbine blades. Transmissibility of acoustic excitation to and from these cavities is affected by material and cross-sectional properties of the structural cavity, as well as potential damage incurred. A new structural damage detection methodology that relies on the detectability of the changes in acoustic transmissibility across the boundaries of structural cavities is proposed. The methodology is described with a specific focus on the passive damage detection approach applied to cavity internal acoustic pressure responses under external flow-induced acoustic excitations. The approach is realized through a test plan that considers a wind turbine blade section subject to various damage types, severity levels, and locations, as well as wind speeds tested in a subsonic wind tunnel. A number of statistics-based metrics, including power spectral density estimates, band power differences from a known baseline, and the sum of absolute difference, were used to detect damage. The results obtained from the test campaign indicated that the passive acoustic damage detection approach was able to detect all considered hole-type damages as small as 0.32 cm in diameter and crack-type damages 1.27 cm in length. In general, the ability to distinguish damage from the baseline state improved as the damage increased in severity. Damage type, damage location, and flow speed influenced the ability to detect damage, but were not significant enough to prevent detection. This article serves as an overall proof of concept of the passive-based damage detection approach using flow-induced acoustic excitations on structural cavities of a wind turbine blade. The laboratory-scale results reveal that acoustic-based monitoring has great potential to be used as a new structural health monitoring technique for utility-scale wind turbine blades. [ABSTRACT FROM AUTHOR]

Published

2020

28. Active acoustic damage detection of structural cavities using internal acoustic excitations.

Author

Beale, Christopher, Inalpolat, Murat, and Niezrecki, Christopher

Subjects

WIND turbine blades, DAMAGE models, ACOUSTIC excitation, SOUND pressure, SIGNAL processing, STRUCTURAL health monitoring

Abstract

A novel structural damage detection methodology that relies on the detectability of the changes in acoustic transmissibility across boundaries of structural cavities is investigated. The approach focuses on active damage detection by leveraging the acoustic pressure responses measured external to structural cavities while exposed to internal acoustic excitations. The active damage detection concept is first demonstrated on a 4 m wind turbine blade using acoustic beamforming techniques to confirm that the acoustic energy transmitted through a damaged surface increases local to the damage compared to an undamaged surface. The concept is further verified, only considering acoustic pressure responses measured from limited microphones positioned at various distances from a ~46 m wind turbine blade. A comprehensive testing campaign is developed and executed on the utility-scale blade considering various damage types, severity levels, and locations. The data are analyzed using a combination of spectral analysis and statistics-based metrics to detect and track the progression of damage as well as identify trends across the test variables. Overall, large increases in the power spectral density were observed from the pressure responses measured external to the structure in most cases. The spectral differences increased as the damage became more severe and damage as small as 5.1 cm in length was easily detected from multiple sensors up to 17.1 m from the damage location. Damage was easily detected when implemented before the mid-length of the blade using simple signal processing algorithms and preliminary test configurations. The data acquired in this work serve as a preliminary investigation into the capability of the approach on complex structures and paves the path for future research into the signal processing techniques and test configurations that will enhance the performance of the active acoustic damage detection approach. [ABSTRACT FROM AUTHOR]

Published

2020

29. Multidirectional corneoconjunctival transposition in the treatment of large keratomalacia in 7 dogs and 5 cats.

Author

Dulaurent T, Rozoy M, Steun L, and Isard PF

Abstract

Objective: To describe the use of multidirectional corneoconjunctival transposition (CCT) as a surgical treatment for large keratomalacia., Method: A prospective study including dogs and cats initially presenting with keratomalacia larger than 6 × 6 mm and affecting more than half of the corneal thickness. Signalment, concurrent eye diseases, ulcer size, bacterial culture and susceptibility testing results, follow-up, and outcome were recorded. The surgery consisted of harvesting of two or three opposite corneoconjunctival grafts, after removal of the malacic tissue using a square-edge keratectomy. The medical treatment consisted of administration of topical and systemic antibiotics, topical atropine, and N-acetylcysteine. Follow-up examinations were performed at D7, D14, D21, and D28, and then at various time points. The corneal clarity score (CCS) was recorded upon completion of the follow-up period., Results: Seven dogs and five cats were included. Brachycephalic dogs were overrepresented, with no breed predisposition in cats. Concurrent eye diseases were corneal pigmentation in three dogs, hypopyon in two dogs, nictitating membrane wound in one dog, and corneal perforation in one cat. The size of the keratomalacia ranged from 6 × 6 to 9.5 × 11.5 mm. The short-term complications were suture dehiscence (two of 12) and progression of the keratomalacia (one of 12). The long-term complications were corneal pigmentation (10 of 12), corneal epithelial inclusion cyst (two of 12), and marginal synechiae (one of 12). All animals were sighted at the last follow-up. The median CCS was G3 (range G2-G4)., Conclusion: Multidirectional CCT is an effective surgical treatment for large keratomalacia in dogs and cats., (© 2023 American College of Veterinary Ophthalmologists.)

Published

2023

30. Selection of Material for Wind Turbine Blade using PROMETHEE-GAIA Method.

Author

Zindani, Divya, Maity, Saikat Ranjan, and Bhowmik, Sumit

Subjects

NONRENEWABLE natural resources, WIND turbine blades, RENEWABLE energy sources, POLLUTION prevention, ALUMINUM

Abstract

The non-renewable energy sources such as wood, coke, coal, uranium are limited and are the source of environmental pollution. Therefore, the focus has shifted on sustainable energy resources meaning optimized utilization of energy resources and minimized pollution. One of the main sustainable energy resources is the wind energy which is generated using a wind turbine. The major component of a wind turbine is a turbine blade. The efficiency of the wind turbine depends to a great extent on the material of the turbine blade besides the angle and shape of the blade being the other factors. For wind turbine to have optimum efficiency, a wind turbine blade should have low density, high stiffness and long fatigue life. The present work discusses the selection of suitable material for a wind turbine blade using one of the prominently used decision making aid known as the PROMETHEE-GAIA approach. The candidate materials considered were Steel, Aluminium, Glass-E, Carbon and Aramid. The decision was made under the influence of five conflicting criteria: stiffness (Gpa), tensile strength (Mpa), density (kg/m3), elongation at break (%), and the maximum temperature. Carbon fibre was found to be the most suitable material for the wind turbine blade. [ABSTRACT FROM AUTHOR]

Published

2018

31. Analyzing territory for the sustainable development of solar photovoltaic power using GIS databases.

Author

Guaita-Pradas, Inmaculada, Marques-Perez, Inmaculada, Gallego, Aurea, and Segura, Baldomero

Subjects

SOLAR energy, GEODATABASES, SUSTAINABLE development, RENEWABLE energy sources, SOLAR radiation, GEOGRAPHIC information systems

Abstract

Solar energy generated by grid-connected photovoltaic (GCPV) systems is considered an important alternative electric energy source because of its clean energy production system, easy installation, and low operating and maintenance costs. This has led to it becoming more popular compared with other resources. However, finding optimal sites for the construction of solar farms is a complex task with many factors to be taken into account (environmental, social, legal and political, technical-economic, etc.), which classic site selection models do not address efficiently. There are few studies on the criteria that should be used when identifying sites for solar energy installations (large grid-connected photovoltaic systems which have more than 100 kWp of installed capacity). It is therefore essential to change the way site selection processes are approached and to seek new methodologies for location analysis. A geographic information system (GIS) is a tool which can provide an effective solution to this problem. Here, we combine legal, political, and environmental criteria, which include solar radiation intensity, local physical terrain, environment, and climate, as well as location criteria such as the distance from roads and the nearest power substations. Additionally, we use GIS data (time series of solar radiation, digital elevation models (DEM), land cover, and temperature) as further input parameters. Each individual site is assessed using a unique and cohesive approach to select the most appropriate locations for solar farm development in the Valencian Community, a Spanish region in the east of Spain. [ABSTRACT FROM AUTHOR]

Published

2019

32. Use of cyanoacrylate adhesive in the surgical management of feline corneal sequestrum: 16 cases (2011‐2018).

Author

Pumphrey, Stephanie A., Desai, Sujata J., and Pizzirani, Stefano

Subjects

NEUROMUSCULAR blocking agents, ADHESIVES, CROSSBREEDING, CONTACT lenses

Abstract

Objective: To evaluate the use of cyanoacrylate adhesive as an adjunct to lamellar keratectomy in cats with corneal sequestrum. Methods: Medical records were reviewed to identify cats with naturally occurring midstromal corneal sequestra treated with lamellar keratectomy and cyanoacrylate adhesive. All cats also had a bandage contact lens placed for postoperative comfort. Data collected included breed, age, sex, and reproductive status of the cat, eye involved, presence or absence of neovascularization at the time of surgery, history of prior sequestra, additional ocular procedures performed, use of neuromuscular blocking agents, procedure time, time to cessation of topical medications, time to recurrence or last follow‐up, and complications aside from recurrence. Results: Sixteen cats met study criteria, with a median follow‐up time of 17.5 months in those without recurrence. Median time to cessation of topical medications was 4 weeks. Fourteen cats (87%) have not experienced recurrence. Other than recurrence in two cats, no significant complications were noted. Aside from purebred status, no commonalities were found between the two cats with recurrence. Neuromuscular blocking agents were not used during surgery in most cases. Median procedure time was 10 minutes. Conclusions: Cyanoacrylate adhesive is an effective and safe alternative to grafting procedures in cats undergoing lamellar keratectomy for treatment of corneal sequestrum. Recurrence rates are comparable to those seen with grafting techniques. Benefits of this approach include decreased anesthesia time, lower procedure costs, and short duration of postoperative treatment. [ABSTRACT FROM AUTHOR]

Published

2019

33. Free and open-source GIS technologies for the management of woody biomass.

Author

Mangiameli, Michele, Mussumeci, Giuseppe, Roccaro, Paolo, and Vagliasindi, Federico G. A.

Abstract

Biomasses are materials of organic origin that can be used for the production of energy. Among the renewable energy sources, a prominent role is played by woody biomass, which can be retrieved from existing forests or plantations governed in short or middle rotation coppice, the so-called Short and Medium Rotation Forestry. The main environmental benefit resulting from the use of wood biomass consists in the fact that the amount of carbon dioxide released during their combustion process is the same as that absorbed during the development phase. Here, we propose a procedure to manage the traceability of short biomass chains and to schedule the activities for mobile forest construction sites using free and open-source GIS technologies. Firstly, we created a spatial DB to manage the areas where the cutting and logging activities are performed. Then, we overlapped the boundaries of areas with the cadastral sheets to ensure the biomass comes from short chain, i.e., within the range of 70 km from the position of the central. To plan the number of working days required and make an estimation of the production, the total area of the lots, the land clearing, and the net area were calculated. Finally, depending on the characteristics of wooded areas, the type of system to be used for the business of cutting and logging was evaluated. This work demonstrates how GIS allows a fast traceability of short biomass chains and an estimation of the production by improving the efficiency and effectiveness of biomass resource assessment. [ABSTRACT FROM AUTHOR]

Published

2019

34. Fatigue Life of Megawatt-Scale Composite Wind Turbine Blades with Shallow-Angled Laminates.

Author

Hayat, K., Ha, S. K., Sultan, T., and Ahmad, Z.

Subjects

WIND turbine blades, LAMINATED materials, WIND turbines, DYNAMIC simulation

Abstract

The fatigue life of megawatt-scale composite wind turbine blades implemented with shallow-angled laminates is investigated. Full dynamic simulations of a 5-MW 3-bladed horizontal-axis wind turbine were carried out to estimate the incident fatigue loads. The fatigue stress histories experienced by lay up materials were then computed using a finite-element model of the composite blade developed to ply-level details. Thereafter, the fatigue life of blade was estimated considering the 100% availability of the turbine for the site-specific annual wind distribution related to the wind turbine class IB. It is demonstrated that the application of shallow-angled laminates leads to a more durable design. [ABSTRACT FROM AUTHOR]

Published

2019

35. Current status and development trend of wind power generation-based hydrogen production technology.

Author

Li, Zheng, Guo, Peng, Han, Ruihua, and Sun, Hexu

Abstract

The hydrogen production technology by wind power is an effective mean to improve the utilization of wind energy and alleviate the problem of wind power curtailment. First, the basic principles and technical characteristics of the hydrogen production technology by wind power are briefly introduced. Then the history of the hydrogen production technology is reviewed, and on this basis, the hydrogen production system by wind power is elaborated in detail. In addition, the prospect of the application of the hydrogen production technology by wind power is analyzed and discussed. In the end, the key technology of the hydrogen production by wind power and the problems to be solved are comprehensively reviewed. The development of hydrogen production technology by wind power is analyzed from many aspects, which provides reference for future development of hydrogen production technology by wind power. [ABSTRACT FROM AUTHOR]

Published

2019

36. An Experimental Study of Plasma Cracking of Methane Using DBDs Aimed at Hydrogen Production.

Author

Barni, Ruggero, Benocci, Roberto, Spinicchia, Nicolò, Roman, H. Eduardo, and Riccardi, Claudia

Subjects

METHANE, HYDROGEN production, NON-thermal plasmas

Abstract

We report the results of an experimental campaign about the production of hydrogen from methane cracking using a non-thermal plasma. Experiments have been performed using a nanosecond pulse high-voltage generator in a cylindrical dielectric barrier electrode setup. Our experiments show that high methane conversion could be achieved by pulsed electrical discharges in DBD configuration. Conversion could be as high as 60%, with a hydrogen yield of about 25%. The energy costs lie in the range 30-40 eV for molecule. Another set of experiments using a traditional sinusoidal dielectric barrier discharge reactor suggests that argon dilution could improve the performances of plasma methane reforming. A similar suggestion could be inferred by analyzing the results of numerical simulations of the gas-phase chemical kinetics evolution under pulsed electrical discharge conditions. [ABSTRACT FROM AUTHOR]

Published

2019

37. Assess the local electricity consumption: the case of Reunion island through a GIS based method.

Author

Bénard-Sora, Fiona, Praene, Jean-Philippe, and Calixte, Yatina

Subjects

ENERGY consumption, RENEWABLE energy sources

Abstract

Succeeding energy transition is the current challenging objective of many remote islands such as Reunion Island to reduce their dependency to fossil resources. To define an efficient energy framework strategy for the territory, it is important to be able to assess the electricity consumption intensity per typology of consumers. A particular attention must be paid on building electricity consumption in energy planning scenarios. This paper proposes to investigate the electricity consumption ratio per square meter per building type which appears as a relevant indicator. The proposed methodology aims at filling the lack of data (ratio kWh/m2/ type of consumers) when this information doesn't exist for a territory. This type of ratio can be useful in two ways: on the one hand to characterize the building energy demand, and, on the other hand, to understand the consumption mode of the inhabitants. We can therefore provide future energy policy framework in favor of demand-side management what is a key step, a lock to solve for the deployment of sustainable cities. This work calculates electricity consumption ratios per area by using a GIS (Geographic Information System) method, distinguishing the type of building. The case of Reunion Island is studied and four building categories are identified corresponding to the functional characteristics such as industry, administration, companies and residential. The results highlight that residential sector has one of the lowest electricity ratios with a value of 29.84 kWh/m2, but also the highest part of electricity consumption, 45.2%. The different ratio value has been cross validated by estimating municipalities electricity consumption based on the distribution of consumers and the associated ratio. [ABSTRACT FROM AUTHOR]

Published

2018

38. The influence of contact time and event frequency on acoustic emission signals.

Author

Schnabel, Stephan, Golling, Stefan, Marklund, Pär, and Larsson, Roland

Abstract

Studies of acoustic emissions (AE) of rotating machine elements is often performed under a constant speed. There are few investigations on speed and contact time dependency of acoustic emission signals, even though some investigations have reported difficulties at elevated rotational speeds. Simplified experiments are, therefore, presented in this article to increase the understanding of the time dependency of acoustic emission signals. Hertzian impacts and tensile tests are used to study contact time, the time duration of an event and offset time, the time between events and accordingly the event frequency. The results of these model experiments indicate an indirect quadratic proportionality of acoustic emission amplitudes and contact time (umax ∝ I/(t²c)), as well as a proportional relationship between the root mean square and event frequency (RMS ∝ fevent ∝ I/toffset). The relationship between contact time and the root mean square of acoustic emission signals is strongly dependent on the damping of the system. [ABSTRACT FROM AUTHOR]

Published

2017

39. The combined use of surgical debulking and diode laser photocoagulation for limbal melanoma treatment: a retrospective study of 21 dogs.

Author

Andreani, Valentina, Guandalini, Adolfo, D'Anna, Nunzio, Giudice, Chiara, Corvi, Roberta, Di Girolamo, Nicola, and Sapienza, John S.

Subjects

MELANOMA treatment, DOG diseases, SEMICONDUCTOR lasers, LIGHT coagulation, RETINAL degeneration

Abstract

Objective To evaluate effectiveness and safety of debulking and diode laser photocoagulation (DPC) for the treatment of limbal melanoma (LM). Procedure Retrospective multi-institutional case series. Medical records of animals diagnosed with LM at the Centro Veterinario Specialistico (CVS) and at the Long Island Veterinary Specialists from 1994 to 2014 were retrieved. Signalment, location, extent of tumors, recurrence rate, and early and late complications were reported. Patient follow-up information was obtained from veterinary ophthalmologists, primary care veterinarians, and where appropriate, owners. Results Twenty-one eyes of 21 dogs (13 females and 8 males) were included in this study. The dogs' average age was 6 years (range: 7 months-11 years). The follow-up period ranged from 1-108 months (median 48 months) after the last DPC procedure. Long-term follow-up was obtained by telephone interviews in 6 of 20 cases and by clinical re-evaluations in 14 of 20 cases. The most common early complications were a moderate anterior uveitis and peripheral corneal edema (21/21 eyes). Late complications included corneal fibrosis and/or pigmentation (20/21). In one case, a severe bullous keratopathy associated with extensive corneal fibrosis was observed (1/21). One case was blind due to concurrent Sudden Acquired Retinal Degeneration (SARD). However, after surgery 2 of 20 eyes lost vision and one of these was enucleated. Conclusions Debulking, in addition to diode laser photocoagulation, was technically straightforward to perform, minimally invasive, well tolerated, and highly successful in this case series. [ABSTRACT FROM AUTHOR]

Published

2017

40. Delamination localization in wind turbine blades based on adaptive time-of-flight analysis of noncontact laser ultrasonic signals.

Author

Park, Byeongjin, Sohn, Hoon, Malinowski, Pawel, and Ostachowicz, Wieslaw

Subjects

WIND turbine blades, TIME-of-flight measurements, LASER ultrasonics, INDUSTRIAL lasers, SPATIAL ability

Abstract

In this study, a two-level scanning strategy for a noncontact laser ultrasonic measurement system is proposed to expedite the inspection of a wind turbine blade. First, coarse scanning of the entire blade is performed with a low spatial resolution for initial delamination localisation. Then, dense scanning with a high spatial resolution is performed only within the identified delaminated region for delamination visualization. This study especially focuses on the initial delamination localisation using adaptive coarse scanning. Laser ultrasonic responses from two pitch-catch paths, names inspection pairs, are obtained within a specified coarse scanning grid. Then, potential delamination locations within the given grid are estimated through time-of-flight analysis of delamination reflected waves. Once potential delamination locations are estimated, new inspection pairs are placed near the potential locations for precise localisation. These steps are repeated for every coarse scanning grids on the target wind turbine blade. The feasibility of the proposed technique for rapid delamination detection is demonstrated with a 10 kW glass fibre reinforced plastic wind turbine blade. [ABSTRACT FROM AUTHOR]

Published

2017

41. A brief review on offshore wind turbine fault detection and recent development in condition monitoring based maintenance system.

Author

Kabir, M. J., Oo, Amanullah M. T., and Rabbani, Mahbub

Published

2015

42. Hydrogen fuel and fuel cell technology for cleaner future: a review.

Author

Singla MK, Nijhawan P, and Oberoi AS

Subjects

Climate Change, Renewable Energy, Technology, Fossil Fuels, Hydrogen

Abstract

One of the main problems facing our planetary bodies is unexpected and sudden climate change due to continuously increasing global energy demand, which currently is being met by fossil fuels. Hydrogen is considered as one of the major energy solutions of the twenty-first century, capable of meeting future energy needs. Being 61a zero-emission fuel, it could reduce environmental impacts and craft novel energy opportunities. Hydrogen through fuel cells can be used in transport and distributed heating, as well as in energy storage systems. The transition from fossil-based fuels to hydrogen requires intensive research to overcome scientific and socio-economic barriers. The purpose of this paper is to reflect the current state, related issues, and projection of hydrogen and fuel elements within the conceptual framework of 61a future sustainable energy vision. An attempt has been made to compile in this paper the past hydrogen-related technologies, present challenges, and role of hydrogen in the future.

Published

2021

43. Experimental evaluation of fatigue damage in two-stage loading tests based on the energy dissipation.

Author

Meneghetti, Giovanni, Ricotta, Mauro, and Atzori, Bruno

Subjects

ENERGY dissipation, METAL fatigue

Abstract

Heat energy dissipation is a manifestation of damage accumulation in fatigue-loaded components. Once recognized that some mechanical energy has to be expended to fatigue a material, energy partition into heat and stored energy is thought of as a material property in the present testing conditions. However, most of the mechanical input energy is dissipated as heat; therefore, the stored energy is difficult to estimate as difference between the expended and the dissipated energy. In this article heat energy is assumed as an index of fatigue damage. Since it reflects the material response to external loading, heat energy was seen to reduce the scatter of constant amplitude fatigue test results with respect to the use of the stress amplitude. Moreover, two-level fatigue test results could be interpreted with a higher level of accuracy when Miner’s rule was applied in terms of energy rather than stress amplitude. [ABSTRACT FROM PUBLISHER]

Published

2015

44. Tumors of the Cornea and Sclera.

Author

Peiffer, Robert L. and Simons, Kenneth B.

Published

2002

45. Emerging trends in female permanent contraception.

Author

Vancaillie, Thierry G.

Published

2013

46. Surgical treatment of epibulbar melanocytomas by complete excision and homologous corneoscleral grafting in dogs: 11 cases.

Author

Maggio, Federica, Pizzirani, Stefano, Peña, Teresa, Leiva, Marta, and Pirie, Christopher G.

Subjects

OCULAR tumors, SURGICAL excision, DOG diseases, CORNEA surgery, SURGICAL complications, MELANOMA, HEALTH outcome assessment

Abstract

Objective The aim of the study was to evaluate the efficacy, outcome, and complications following penetrating sclerokeratoplasty and frozen homologous corneoscleral grafting for the management of extensive canine epibulbar melanocytomas. Methods Medical records of canine patients treated at three different veterinary hospitals between 1999 and 2010 were reviewed. Signalment, location and extent of melanocytomas, recurrence rate, and early and late complications were reported. Patients were re-examined postoperatively to provide follow-up information. Results Patients included one intact male, three castrated males, six intact females, and one spayed female, with a median age of 5 years (range, 3-9). German Shepherds were overrepresented. Tumors extended from 2 to 4 clock hours at the limbus and up to 17 mm from clear cornea to globe equator. One case showed iridocorneal angle invasion; corneal involvement was present in all cases, and lipid keratopathy was present in four cases. In two cases, there was incomplete resection owing to tumor extent. Follow-up time ranged from 3 to 72 months (median, 17 months), with one case of intraocular tumor progression. Early complications included anterior uveitis (11/11), intracameral fibrin (5/11), hyphema (4/11), corneal edema (4/11), exuberant corneal granulation tissue (2/11), focal retinal edema (1/11), dyscoria (1/11), and partial suture dehiscence (1/11). Late complications included corneal fibrosis and/or pigmentation (11/11), faint anterior cortical cataracts (3/11), and lipid keratopathy (1/11). Vision was retained in all cases. Conclusions This technique offers a surgically challenging but effective treatment for extensive epibulbar melanocytomas. In this case series, complications were mild and transient, with preservation of ocular anatomy and function. [ABSTRACT FROM AUTHOR]

Published

2013

47. Comparative efficacy of postpartum sterilisation with the titanium clip versus partial salpingectomy: a randomised controlled trial.

Author

Rodriguez, MI, Seuc, A, and Sokal, DC

Subjects

STERILIZATION (Birth control), SALPINGITIS, RANDOMIZED controlled trials, COMPARATIVE studies, LAPAROSCOPIC surgery, ANESTHESIA, SURGERY

Abstract

A multicentre trial was conducted to compare efficacy of postpartum sterilisation with clip and partial salpingectomy. Life-table estimates of pregnancy probabilities were compared through 2 years of follow up. A significantly different risk of pregnancy between the clip and partial salpingectomy groups was observed. Nine pregnancies were observed in the clip group versus two in the partial salpingectomy group. Cumulative probability of pregnancy through 2 years was 0.017 with the clip and 0.004 [correction added after online publication 25 September 2012; 0.044 has been replaced with 0.004] for partial salpingectomy ( P < 0.04). Equivalent efficacy of the clip compared with partial salpingectomy has not been demonstrated in postpartum women. [ABSTRACT FROM AUTHOR]

Published

2013

48. Assessment of Non-adiabatic Behaviour in Thermoelastic Stress Analysis of Composite Sandwich Panels.

Author

Crump, D. and Dulieu-Barton, J.

Subjects

THERMOELASTIC stress analysis, ADIABATIC processes, COMPOSITE materials, HONEYCOMB structures, CARBON fibers, MECHANICAL loads, LAMINATED materials

Abstract

Thermoelastic stress analysis (TSA) is used to derive the surface stresses in large sandwich structure panels with honeycomb core and carbon fibre face sheets. The sandwich panels are representative of those used for secondary aircraft structure. The panels were subjected to a pressure load, similar to that experienced in-service, using a custom designed test rig. To achieve the necessary adiabatic conditions for TSA, cyclic loading is regarded as an essential feature. As the panels were full-scale, the maximum loading frequency that could be imparted to the panels by the rig was 1 Hz, which is below the usual range recommended to achieve adiabatic behaviour. To assess the effectiveness of TSA at low frequencies two approaches to calibration are investigated and compared with the stress distribution obtained from independently validated FE models. The thermoelastic response was calibrated into stress data using thermoelastic constants derived experimentally from tensile strips of the sandwich panel face sheet material. It is shown that by using thermoelastic constants obtained from the tensile strips manufactured with the same lay-up as the sandwich panel face sheets, and at the same cyclic load frequency used in the full-scale tests, quantitative stress metrics can be derived from the TSA data. More significantly, a deeper insight into the importance of the thermal characteristics in TSA of laminated materials is provided. It is demonstrated that, for the material used in this work, it is possible to use the global material behaviour to obtain quantitative results when adiabatic conditions do not prevail. [ABSTRACT FROM AUTHOR]

Published

2012

49. A modeling approach for investigating climate change impacts on renewable energy utilization.

Author

Cai, Y. P., Huang, G. H., Yeh, S. C., Liu, L., and Li, G. C.

Subjects

MATHEMATICAL models, RENEWABLE energy sources, CLIMATE change, ENERGY development, ENERGY storage, GREENHOUSE gas mitigation

Abstract

SUMMARY In this study, an integrated community-scale energy model (ICEM) was developed for supporting renewable energy management (REM) systems planning with the consideration of changing climatic conditions. Through quantitatively reflecting interactive relationships among various renewable energy resources under climate change, not only the impacts of climate change on each individual renewable energy but also the combined effects on power-generation sector from renewable energy resources could be incorporated within a general modeling framework. Also, discrete probability levels associated with various climate change impacts on the REM system could be generated. Moreover, the ICEM could facilitate capacity-expansion planning for energy-production facilities within a multi-period and multi-option context in order to reduce energy-shortage risks under a number of climate change scenarios. The generated solutions can be used for examining various decision options that are associated with different probability levels when availabilities of renewable energy resources are affected by the changing climatic conditions. A series of probability levels of hydropower-, wind- and solar-energy availabilities can be integrated into the optimization process. The developed method has been applied to a case of long-term REM planning for three communities. The generated solutions can provide desired energy resource/service allocation and capacity-expansion plans with a minimized system cost, a maximized system reliability and a maximized energy security. Tradeoffs between system costs, renewable energy availabilities and energy-shortage risks can also be tackled with the consideration of climate change, which would have both positive and negative impacts on the system cost, energy supply and greenhouse-gas emission. Copyright © 2011 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2012

50. Feline glaucoma-a comprehensive review.

Author

McLellan, Gillian J. and Miller, Paul E.

Subjects

GLAUCOMA diagnosis, CAT diseases, TONOMETERS, DISEASE progression, PATHOLOGICAL physiology, NOSOLOGY, VETERINARY ophthalmology

Abstract

Cats with glaucoma typically present late in the course of disease. It is likely that glaucoma in cats is under-diagnosed due to its insidious onset and gradual progression, as well as limitations of some commonly used tonometers in this species. Treatment of glaucoma in feline patients presents a clinical challenge, particularly as glaucoma is often secondary to other disease processes in cats. In this review, we consider the clinical features, pathophysiology, and classification of the feline glaucomas and provide current evidence to direct selection of appropriate treatment strategies for feline glaucoma patients. [ABSTRACT FROM AUTHOR]

Published

2011