52,717 research outputs found
Evaluating complementary medicine: methodological challenges of randomised controlled trials
Complementary medicine has a different philosophy from conventional medicine, presenting challenges to research methodology. Rigorous evaluation of complementary medicine could provide much needed evidence of its effectiveness. Good design of randomised controlled trials will avoid invalid results and misrepresentation of the holistic essence of complementary medicine. Practitioners need to be recognised as a component in or contributor to complementary treatment. Both specific and non-specific outcome measures with long follow up are needed to adequately encompass the essence of complementary medicine
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Creep in fibre-reinforced polymer mat composites
Tensile creeps have been conducted upon a woven, glass-fibre laminated epoxy composite and a 0/90° cross ply, carbon fibre reinforced epoxy composite. For the laminate loading was aligned with a fibre direction. For the ply the loading was inclined to the fibres (off-axis).
Testing to stress levels up to 200 MPa and temperatures in the range 20°- 200°C has revealed a form of creep in each material. The creep observed is essentially primary in nature but with extended time •1000 h, it may exhaust or resemble a pseudo-secondary regime with a low rate. Where the load carrying capacity is lost, through fibre breakage or tab slip, the creep rate accelerates suddenly to infinity in a few hours. Smooth creep curves apply to successful tests but many irregular curves resulted from grip failure. A phenomenological approach was used to model smooth curves using a summation of instantaneous, primary and secondary strain terms. For the mat reinforcement a consistent trend was not found between the secondary creep rate and a stress that was raised incrementally upon the same testpiece. However the cumulative instantaneous strain provided the correct elastic modulus. Creep in the solid laminate was believed to be due to a fibre straightening that yielded a limiting strain in a time beyond which the process exhausts.
Creep in cfrc was only evident when the fibres were inclined to the stress axis, indicating a viscous flow in the matrix. Moreover, it is believed that a viscous shear sliding between laminates or plies is more likely to contribute to an off-axis deformation mode which is not strain limited.http://www.brunel.ac.uk/about/acad/sed/sedstaff/design/DavidRee
Optimal passive filter design for effective utilization of cables and transformers under non-sinusoidal conditions
Transformers and cables have overheating and reduced loading capabilities under non-sinusoidal conditions due to the fact that their losses increases with not only rms value but also frequency of the load current. In this paper, it is aimed to employ passive filters for effective utilization of the cables and transformers in the harmonically contaminated power systems. To attain this goal, an optimal passive filter design approach is provided to maximize the power factor definition, which takes into account frequency-dependent losses of the power transmission and distribution equipment, under non-sinusoidal conditions. The obtained simulation results show that the proposed approach has a considerable advantage on the reduction of the total transmission loss and the transformer loading capability under non-sinusoidal conditions when compared to the traditional optimal filter design approach, which aims to maximize classical power factor definition. On the other hand, for the simulated system cases, both approaches lead to almost the same current carrying (or loading) capability value of the cables. © 2014 IEEE.This work is supported by Turkish Republic Ministry of Science, Industry and Technology and BEST Transformers Co. under the project number of 01008.STZ.2011 - 2
An algorithm for optimal sizing of the capacitor banks under non-sinusoidal and unbalanced conditions
In non-sinusoidal and unbalanced systems, optimal sizing of the capacitor banks is not a straightforward
task as in sinusoidal and balanced systems. In this paper, by means of qualitative and quantitative analysis, it is interpreted that the classical capacitor selection algorithm widely implemented in Reactive Power Control (RPC) relays does not achieve optimal power factor improvement in non-sinusoidal and unbalanced systems. Accordingly, a computationally efficient algorithm is proposed to find the optimal capacitor bank for smart RPC relays. It is further shown in a simulated test case by using Matlab software that the proposed algorithm provides better power factor improvement when compared with the classical algorithm. It is also figured out from the simulation results that both algorithms cause almost the same harmonic distortion and unbalance deterioration levels in the system
Optimal design of single-tuned passive filters using response surface methodology
This paper presents an approach based on Response Surface Methodology (RSM) to find the optimal parameters of the single-tuned passive filters for harmonic mitigation. The main advantages of RSM can be underlined as easy implementation and effective computation. Using RSM, the single-tuned harmonic filter is designed to minimize voltage total harmonic distortion (THDV) and current total harmonic distortion (THDI). Power factor (PF) is also incorporated in the design procedure as a constraint. To show the validity of the proposed approach, RSM and Classical Direct Search (Grid Search) methods are evaluated for a typical industrial power system
On the Viability of a Non-Analytical f(R)-Theory
In this paper, we show how a power-law correction to the Einstein-Hilbert
action provides a viable modified theory of gravity, passing the Solar-System
tests, when the exponent is between the values 2 and 3. Then, we implement this
paradigm on a cosmological setting outlining how the main phases of the
Universe thermal history are properly reproduced. As a result, we find two
distinct constraints on the characteristic length scale of the model, i.e., a
lower bound from the Solar-System test and an upper one by guaranteeing the
matter dominated Universe evolution.Comment: 9 pages, 2 figure
Physiology, Defecation
Defecation is the term given for the act of expelling feces from the digestive tract via the anus. It is a complex function that requires coordinated involvement from the gastrointestinal system, the nervous system, as well as the musculoskeletal system.[1] The frequency of defecation within a 24-hour period varies depending on age and diet, but most people tend to have a bowel movement 1 to 3 times daily.[2
Traditional Apprenticeship System of Labour Supply for Housing Production in Saki, Southwestern, Nigeria
The study investigated the extent to which the traditional apprenticeship system, a major stakeholder in the training of building artisans in Nigeria (NHP, 2006), has succeeded in supplying the required artisan for housing development in Saki, Oyo State. Both primary and secondary data were utilized for the study. Pre-tested set of
questionnaires were used to collect the primary data, and a simple random sampling procedure was adopted in selecting the samples. A total of 310 respondents, representing 5.5% of the total population were selected. The study revealed that the existing building artisans in the town were aging-out (66.4% were at least 41 years old) and the rate of enrollment as apprentice is fast dwindling (from 861 in 1997 to 189 in 2006, at an average rate of -16% per annum). Most prominent among the reasons proffered for the dwindling enrollment of apprentice building artisans in the town are: ‘quest for overnight richness\' (61.3%); ‘preference for occupation with little physical/mental ability requirements\' (51.9%); ‘perceived dirty nature of the occupation\' (36.1%); and, ‘preference for occupation with daily benefits for the apprentice\' (27.1%). Strategies were proposed to tackle
identified challenges. Keywords: Housing production; Manpower development; Traditional apprenticeship system; Work-brigade; Nigeria.Ethiopian Journal of Environmental Studies of Management Vol. 1 (2) 2008: pp. 16-2
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Numerical investigation of laminar flow in micro-tubes with designed surface roughness
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the Makedonia Palace Hotel, Thessaloniki in Greece. The conference was organised by Brunel University and supported by the Italian Union of Thermofluiddynamics, Aristotle University of Thessaloniki, University of Thessaly, IPEM, the Process Intensification Network, the Institution of Mechanical Engineers, the Heat Transfer Society, HEXAG - the Heat Exchange Action Group, and the Energy Institute.Recently, there has been a rapid growth in applications that deal with fluid flow at micro-scale where surface roughness is a real feature in these applications. Published literature shows conflicting
findings regarding the effect of surface roughness on the friction factor of laminar flow at micro-scale. The understanding of fluid flow behavior in micro-tubes is very important for effective design of micro-fluidic devices. This work presents a numerical investigation of the effect of various surface roughness geometries on friction factor in fluid flow in the laminar regime. Results indicate that surface roughness causes deviation of the frictional factor from conventional theory with various values depending on the height and shape of
the roughness used
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Numerical investigation of laminar flow heat transfer through helically coiled tubes using Al2O3 nanofluid
This paper was presented at the 3rd Micro and Nano Flows Conference (MNF2011), which was held at the Makedonia Palace Hotel, Thessaloniki in Greece. The conference was organised by Brunel University and supported by the Italian Union of Thermofluiddynamics, Aristotle University of Thessaloniki, University of Thessaly, IPEM, the Process Intensification Network, the Institution of Mechanical Engineers, the Heat Transfer Society, HEXAG - the Heat Exchange Action Group, and the Energy Institute.Nanofluids have been reported to enhance heat transfer performance in heat exchangers.
Additionally, the use of helical coils has shown to be another passive heat transfer enhancement technique. This work presents a CFD modeling study to investigate the laminar heat transfer through helical tubes with nanofluids. The developed CFD models were validated against published experimental results and empirical
correlations in the literature. The effects of particles concentration and Reynolds number on heat transfer coefficient were numerically investigated. Results have shown that Al2O3 dispersed in water increases the
heat transfer coefficient in helical coils by up to 4.5 times that of pure water in straight tubes at same Reynolds number. For concentrations larger than 2%, Al2O3 is more suitable for thermal systems of small thermal loads where the pumping power is not critical
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