5,135 research outputs found
The eastern boundary of the Gulf Stream recirculation
A meridionally aligned thermocline front near 60W in the subtropical North Atlantic is revealed by the 1992 Trident data set. The front separates saltier thermocline water to the east from less salty water to the west. The eastern water is subjected to excess evaporation of the subtropics, while the western water is fed by lower salinity Gulf Stream water, which derives water from the wet tropical Atlantic. It is suggested that the front marks the eastern edge of the Gulf Stream recirculation cell, hence refer to it as the recirculation front. The surface layer displays a fan-like T/S scatter above the 18°C Subtropical Mode Water, with the fresher surface water located west of the recirculation front, and a subsurface salinity maximum to the east. In the lower thermocline (8 to 12°C) there is a step-like salinity increase of about 0.04 toward the east as measured along isotherms, producing two modes in the T/S scatter. At the intermediate water level (approximately in the 4 to 8°C range) the extent of the low salinity Antarctic Intermediate Water and salty Mediterranean outflow water are also reflected in the position of the recirculation front. That the front marks the easternmost extent of the Gulf Stream recirculation is supported by the potential vorticity, which reveals a region of high homogeneous values within the recirculation cell. East of the front, the potential vorticity field is sloped along isopycnals indicating the meridional flow of the Sverdrup interior. Mapping of the recirculation front using archived data reveals that it extends deep into the subtropical convergence zone (STCZ), a region whose fronts have all been previously attributed to Ekman convergence
The variable ionized absorber in the Seyfert 2 Mrk 348
We present the results of the analysis of the X-ray spectrum of the Seyfert 2
Mrk 348, observed by Suzaku and XMM-Newton. The overall spectrum of Mrk 348 can
be described by a primary power law continuum seen through three layers of
absorption, of which one is neutral and two are ionised. Comparing Suzaku
(2008) and XMM-Newton (2002) observations we find variability of the X-ray
spectral curvature. We suggest that the variability can be explained through
the change of column density of both the neutral and one of the ionised
absorbers, together with a variation of the ionisation level of the same
absorber. We thus confirm one of the main features presented in past works,
where intrinsic column density variability up to ~cm was
observed on time scales of months. We also find that the photon index of the
underlying power law continuum () is in agreement with the
previous observations of this Seyfert 2.Comment: 13 pages, 6 figure
Transient Numerical Modeling of the Combustion of Bi-Component Liquid Droplets: Methanol/Water Mixture
This study shows that liquid mixtures of methanol and water are attractive candidates for microgravity droplet combustion experiments and associated numerical modeling. The gas phase chemistry for these droplet mixtures is conceptually simple, well understood and substantially validated. In addition, the thermodynamic and transport properties of the liquid mixture have also been well characterized. Furthermore, the results obtained in this study predict that the extinction of these droplets may be observable in ground-based drop to tower experiments. Such experiments will be conducted shortly followed by space-based experiments utilizing the NASA FSDC and DCE experiments
A Venture Capital Fund for Undergraduate Engineering Students at Rowan University
All engineering students at Rowan University are required to take the 8-semester Engineering Clinic sequence wherein multidisciplinary student teams engage in semester-long design projects. In addition to projects that are funded by local industry, faculty research grants or departmental budgets, a Venture Capital Fund has been created, which is specifically ear-marked for the development of original student inventions. Funding of up to $2500 per student team per semester is competitively awarded based on student-generated proposals to the Venture Capital Fund, which has been created through a series of grants from the National Collegiate Inventors and Innovators Alliance (NCIIA). To qualify for funding, a multidisciplinary student team must propose, plan and implement an original, semester-long product development enterprise. To date, eleven projects have been funded through the Venture Capital Fund. This paper describes the results of several student entrepreneurial projects and compares the results of student surveys to assess the effectiveness of entrepreneurial projects in satisfying the technical objectives of the Engineering Clinic. The results suggest that students engaged in entrepreneurial projects devote more hours per week on their projects, have more “ownership” in their projects, and have a better understanding of the technical aspects and societal impact of their projects than their counterparts who are engaged in the more traditional engineering design projects
A critical analysis of the hydrino model
Recently, spectroscopic and calorimetric observations of hydrogen plasmas and
chemical reactions with them have been interpreted as evidence for the
existence of electronic states of the hydrogen atom with a binding energy of
more than 13.6 eV. The theoretical basis for such states, that have been dubbed
hydrinos, is investigated. We discuss both, the novel deterministic model of
the hydrogen atom, in which the existence of hydrinos was predicted, and
standard quantum mechanics. Severe inconsistencies in the deterministic model
are pointed out and the incompatibility of hydrino states with quantum
mechanics is reviewed.Comment: 9 page
Fifty years of wheat breeding in Southern Brazil: yield improvement and associated changes.
O objetivo deste trabalho foi avaliar a contribuição do melhoramento genético na produtividade de grãos e identificar as características fisiológicas, associadas ao incremento do rendimento, e os processos de crescimento que as produzem. Foram estudadas sete cultivares de trigo, extensivamente cultivadas na região Sul do Brasil entre 1940 e 1992. As cultivares foram comparadas quanto ao rendimento de grãos, produção biológica, índice de colheita, partição de biomassa e componentes do rendimento. O número de grãos por metro quadrado foi o componente mais afetado pelo melhoramento genético, no período de 52 anos abrangidos pelo estudo, e esteve mais correlacionado ao rendimento de grãos (r = 0,94, p<0,01) do que o peso de grãos (r = -0,39ns). O maior número de grãos por metro quadrado, observado nas cultivares modernas, foi mais correlacionado com seu número de grãos por espiga, em relação às cultivares antigas, o que caracteriza a importância do período de pré-antese na produção de grãos. O ganho genético na produção de grãos foi de 44,9 kg ha-1 por ano e reflete o importante esforço dos programas de melhoramento genético desenvolvidos no Sul do Brasil. As variações em rendimento de grãos, ocorridas no período de estudo, estiveram mais associadas à produção de biomassa (r = 0,78, p<0,01) do que ao índice de colheita (r = 0,65, p<0,01)
Electron backscattered diffraction to estimate residual stress levels of a superalloy produced by laser powder bed fusion and subsequent heat treatments
Metal Additive Manufacturing and Laser Powder Bed Fusion (LPBF), in particular, have come forth in recent years as an outstanding innovative manufacturing approach. The LPBF process is notably characterized by very high solidification and cooling rates, as well as repeated abrupt heating and cooling cycles, which generate the build-up of anisotropic microstructure and residual stresses. Post-processing stress-relieving heat treatments at elevated temperatures are often required in order to release some of these stresses. The effects of 1 h–hold heat treatments at different specific temperatures (solutionizing, annealing, stress-relieve and low-temperature stress-relieve) on residual stress levels together with microstructure characterization were therefore investigated for the popular Alloy 625 produced by LPBF. The build-up of residual stress is accommodated by the formation of dislocations that produce local crystallographic misorientation within grains. Electron backscattered diffraction (EBSD) was used to investigate local misorientation by means of orientation imaging, thereby assessing misorientation or strain levels, in turn representing residual stress levels within the material. The heavily constrained as-built material was found to experience full recrystallization of equiaxed grains after solutionizing at 1150◦ C, accompanied by significant drop of residual stress levels due to this grains reconfiguration. Heat treatments at lower temperatures however, even as high as the annealing temperature of 980◦ C, were found to be insufficient to promote recrystallization though effective to some extent to release residual stress through apparently dislocations recovery. Average misorientation data obtained by EBSD were found valuable to evaluate qualitatively residual stress levels. The effects of the different heat treatments are discussed and suggest that the peculiar microstructure of alloys produced by LPBF can possibly be transformed to suit specific applications
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