39,036 research outputs found
Effect of Swirl on Rotordynamic Forces Caused by Front Shroud Pump Leakage
Unsteady forces generated by fluid flow through the impeller shroud leakage path of a centrifugal pump were investigated. The effect of leakage path inlet swirl (pump discharge swirl) on the rotordynamic forces was re-examined. It was observed that increasing the inlet swirl is destabilizing both for normal and tangential rotordynamic forces. Attempts to reduce the swirl within the leakage path using ribs and grooves as swirl brakes showed benefits only at low leakage flow rate
Polymers Confined between Two Parallel Plane Walls
Single three dimensional polymers confined to a slab, i.e. to the region
between two parallel plane walls, are studied by Monte Carlo simulations. They
are described by -step walks on a simple cubic lattice confined to the
region . The simulations cover both regions (where is the Flory radius, with ), as
well as the cross-over region in between. Chain lengths are up to ,
slab widths up to D=120. In order to test the analysis program and to check for
finite size corrections, we actually studied three different models: (a)
Ordinary random walks (mimicking -polymers); (b) Self-avoiding walks
(SAW); and (c) Domb-Joyce walks with the self-repulsion tuned to the point
where finite size corrections for free (unrestricted) chains are minimal. For
the simulations we employ the pruned-enriched-Rosenbluth method (PERM) with
Markovian anticipation. In addition to the partition sum (which gives us a
direct estimate of the forces exerted onto the walls), we measure the density
profiles of monomers and of end points transverse to the slab, and the radial
extent of the chain parallel to the walls. All scaling laws and some of the
universal amplitude ratios are compared to theoretical predictions.Comment: 8 pages, 14 figures include
Theory of wing rock
A theory is developed for predicting wing rock characteristics. From available data, it can be concluded that wing rock is triggered by flow asymmetries, developed by negative or weakly positive roll damping, and sustained by nonlinear aerodynamic roll damping. A new nonlinear aerodynamic model that includes all essential aerodynamic nonlinearities is developed. The Beecham-Titchener method is applied to obtain approximate analytic solutions for the amplitude and frequency of the limit cycle based on the three degree-of-freedom equations of motion. An iterative scheme is developed to calculate the average aerodynamic derivatives and dynamic characteristics at limit cycle conditions. Good agreement between theoretical and experimental results is obtained
Topological density wave states of non-zero angular momentum
The pseudogap state of high temperature superconductors is a profound
mystery. It has tantalizing evidence of a number of broken symmetry states, not
necessarily conventional charge and spin density waves. Here we explore a class
of more exotic density wave states characterized by topological properties
observed in recently discovered topological insulators. We suggest that these
rich topological density wave states deserve closer attention in not only high
temperature superconductors but in other correlated electron states, as in
heavy fermions.Comment: Expanded version, 7 pages, 6 figure
- …