2,563 research outputs found
Analysis of the Coupling Behavior of PEM Fuel Cells and DC-DC Converters
The connection between PEM fuel cells and common DC-DC converters is examined. The analysis is model-based and done for boost, buck and buck-boost converters. In a first step, the effect of the converter ripples upon the PEM fuel cell is shown. They introduce oscillations in the fuel cell. Their appearance is explained, discussed and possibilities for their suppression are given. After that, the overall behaviors of the coupled fuel cell-converter systems are analyzed. It is shown, that neither stationary multiplicities nor oscillations can be introduced by the couplings and therefore separate control approaches for both the PEMFC and the DC-DC converters are applicable
Ethics watch: the threatened trade in human ova
It is well known that there is a shortage of human ova for in vitro fertilization (IVF) purposes, but little attention has been paid to the way in which the demand for ova in stem-cell technologies is likely to exacerbate that shortfall and create a trade in human eggs. Because the 'Dolly' technology relies on enucleated ova in large quantities, allowing for considerable wastage, there is a serious threat that commercial and research demands for human eggs will grow exponentially from the combination of these two pressures. In the absence of legal regulation in the United Kingdom, and in the context of a globalized trade in human organs, we face a 'Wild West' situation in genetic and biotechnological research that involves human ova
Mass Transport Limitations in Microbial Fuel Cells:Impact of Flow Configurations
The performance of microbial fuel cells (MFCs) is limited by a number of factors, including metabolic activity of electroactive microorganisms and electrochemical systematic constraints, such as overpotentials at the electrodes or IR losses. Heterogeneities of substrate distribution (availability) can also strongly limit current in MFCs. In this work we investigate how mass transport can be enhanced by changing the flow configurations in MFCs, e.g. by directing the flow through a porous anode or by applying inserts and channels to anodes. Experimental results using a perpendicular flow through the anode were compared to a parallel flow setup, showing increased current output. Finite element method (FEM) simulations were used to simulate the flow profiles and substrate distribution in each setup. The simulations revealed higher average substrate concentrations for the perpendicular flow through a porous carbon fabric anode vs. a parallel flow in the bulk phase of the MFC, related to the enhancement of transport via convection in perpendicular flow. The simulated substrate distributions found for the different inlet setups could be correlated to the experimentally obtained current flow, power output and biofilm distribution. It can be concluded that the increased current output can be explained by the flow profile in the system resulting in an increased substrate distribution in the biofilm on the electrode and a hindered oxygen transport from the cathode
Possible climate-related signals in high-resolution topography of lobate debris aprons in Tempe Terra, Mars
Lobate debris aprons are common features in the midlatitudes of Mars that are assumed to be the result of the flow of ice-rich material. We produce high-resolution digital elevation models of two of these features in the Tempe Terra region of Mars using HiRISE stereo images. We identify two main topographic features of different wavelength using a power spectrum analysis approach. Short wavelength features, between approximately 10 and 20 m in length, correspond to a polygonal surface texture present throughout our study area. Long wavelength features, between approximately 700 and 1800 m in length, correspond to broad ridges that are up to 20 m in amplitude. We interpret both topographic signals to be the likely result of climate change affecting the debris contribution and/or the flow regime of the lobate debris aprons. The apparent surface age of about 300 Ma could be evidence of an astronomical forcing mechanism recorded in these lobate debris aprons at this time in Mars' history. Citation: Grindrod, P. M., and S. A. Fawcett (2011), Possible climate-related signals in high-resolution topography of lobate debris aprons in Tempe Terra, Mars, Geophys. Res. Lett., 38, L19201, doi: 10.1029/2011GL049295
Static and dynamic friction in sliding colloidal monolayers
In a pioneer experiment, Bohlein et al. realized the controlled sliding of
two-dimensional colloidal crystals over laser-generated periodic or
quasi-periodic potentials. Here we present realistic simulations and arguments
which besides reproducing the main experimentally observed features, give a
first theoretical demonstration of the potential impact of colloid sliding in
nanotribology. The free motion of solitons and antisolitons in the sliding of
hard incommensurate crystals is contrasted with the soliton-antisoliton pair
nucleation at the large static friction threshold Fs when the two lattices are
commensurate and pinned. The frictional work directly extracted from particles'
velocities can be analysed as a function of classic tribological parameters,
including speed, spacing and amplitude of the periodic potential (representing
respectively the mismatch of the sliding interface, and the corrugation, or
"load"). These and other features suggestive of further experiments and
insights promote colloid sliding to a novel friction study instrument.Comment: in print in the Proceedings of the National Academy of Sciences
U.S.A. This v2 is identical to v1, but includes ancillary material. A few
figures were undersampled due to size limits: those in v1 are far sharpe
Excited states in bilayer graphene quantum dots
We report on ground- and excited state transport through an electrostatically
defined few-hole quantum dot in bilayer graphene in both parallel and
perpendicular applied magnetic fields. A remarkably clear level scheme for the
two-particle spectra is found by analyzing finite bias spectroscopy data within
a two-particle model including spin and valley degrees of freedom. We identify
the two-hole ground-state to be a spin-triplet and valley-singlet state. This
spin alignment can be seen as Hund's rule for a valley-degenerate system, which
is fundamentally different to quantum dots in carbon nano tubes and GaAs-based
quantum dots. The spin-singlet excited states are found to be valley-triplet
states by tilting the magnetic field with respect to the sample plane. We
quantify the exchange energy to be 0.35meV and measure a valley and spin
g-factor of 36 and 2, respectively
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