36,649 research outputs found
The employment effects of the Working Families Tax Credit
In October 1999 WFTC replaced Family Credit as the main package of in-work financial support for families with children. This note compares the results of three IFS projects assessing the effectiveness of the WFTC in getting people back to work
Suspended chains damp wind-induced oscillations of tall flexible structures
Hanging-chain system, which is a form of impact damper, suppresses wind-induced bending oscillations of tall cylindrical antenna masts. A cluster of chains enclosed in a neoprene shroud is suspended inside the tip of the antenna mast, forming a simple method of damping structural vibrations
Viscous pendulum damper Patent
Mercury filled pendulum damper for controlling bending vibration induced by wind effect
Viscous-pendulum damper suppresses structural vibrations
The viscous pendulum damper consists of a cylinder containing round trays on which round lead slugs rest. When assembled, the container is filled with a viscous liquid and attached, with axis vertical, to the structure. The device permits varying the damping of structural vibrations
Decoupler pylon: wing/store flutter suppressor
A device for suspending a store from a support such as an aircraft wing and more specifically for increasing the flutter speed of an aircraft flying with attached store and reducing the sensitivity of flutter to changes in the pitch inertia and center of gravity location of the store is described. It comprises softspring where the store pitch mode is decoupled from support modes and a low frequency active control mechanism which maintains store alignment. A pneumatic suspension system both isolates the store in pitch and, under conditions of changing mean load, aligns the store with the wing to which it is attached
Test unit free-flight suspension system Patent
Free flight suspension system for use with aircraft models in wind tunnel test
A flight investigation of oscillating air forces: Equipment and technique
The equipment and techniques are described which are to be used in a project aimed at measuring oscillating air forces and dynamic aeroelastic response of a swept wing airplane at high subsonic speeds. Electro-hydraulic inertia type shakers installed in the wing tips will excite various elastic airplane modes while the related oscillating chordwise pressures at two spanwise wing stations and the wing mode shapes are recorded on magnetic tape. The data reduction technique, following the principle of a wattmeter harmonic analyzer employed by Bratt, Wight, and Tilly, utilizes magnetic tape and high speed electronic multipliers to record directly the real and imaginary components of oscillatory data signals relative to a simple harmonic reference signal. Through an extension of this technique an automatic flight-flutter-test data analyzer is suggested in which vector plots of mechanical admittance or impedance would be plotted during the flight test
An assessment of PenSim2
The Department for Work and Pensions (DWP)âs Pensim2 model is a dynamic
microsimulation model. The principal purpose of this model is to estimate the future
distribution of pensioner incomes, thus enabling analysis of the distributional effects of
proposed changes to pension policy. This paper presents the results of an assessment of
Pensim2 by researchers at the IFS. We start by looking at the overall structure of the
model, and how it compares with other dynamic policy analysis models across the world.
We make recommendations at this stage as to how the overall modelling strategy could be
improved. We then go on to analyse the characteristics of most of the individual modules
which make up Pensim2, examining the data used and the regression and predictions used
in each step. The results from this examination are used to formulate a set of short and
medium-term recommendations for developing and improving the model. Finally, we look at
what might become possible for the model over a much longer time frame â looking towards
developing a âPensim3â model over the next decade or so
Correlation with flight of some aeroelastic model studies in the NASA Langley transonic dynamics tunnel
The NASA Langley transonic dynamics tunnel, which has a variable density Freon-12 (or air) test medium, was designed specifically for the study of dynamics and aeroelastic problems of aerospace vehicles. During the 15 years of operation of this facility, there have been various opportunities to compare wind tunnel and flight test results. Some of these opportunities arise from routine flight checks of the prototypes; others, from carefully designed comparative wind-tunnel and flight experiments. Such data obtained from various published and unpublished sources are presented. The topics covered are: gust and buffet response, control surface effectiveness, flutter, and active control of aeroelastic effects. Some benefits and shortcomings of Freon-12 as a test medium are also discussed. Although areas of uncertainty are evident and there is a continuing need for improvements in model simulation and testing techniques, the results presented indicate that predictions from aeroelastic model tests are, in general, substantiated by full scale flight tests
Aeroelasticity matters: Some reflections on two decades of testing in the NASA Langley transonic dynamics tunnel
Testing of wind-tunnel aeroelastic models is a well established, widely used means of studying flutter trends, validating theory and investigating flutter margins of safety of new vehicle designs. The Langley Transonic Dynamics Tunnel was designed specifically for work on dynamics and aeroelastic problems of aircraft and space vehicles. A cross section of aeroelastic research and testing in the facility since it became operational more than two decades ago is presented. Examples selected from a large store of experience illustrate the nature and purpose of some major areas of work performed in the tunnel. These areas include: specialized experimental techniques; development testing of new aircraft and launch vehicle designs; evaluation of proposed "fixes" to solve aeroelastic problems uncovered during development testing; study of unexpected aeroelastic phenomena (i.e., "surprises"); control of aeroelastic effects by active and passive means; and, finally, fundamental research involving measurement of unsteady pressures on oscillating wings and control surface
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