2,031 research outputs found
The role of unsteadiness in direct initiation of gaseous detonations
An analytical model is presented for the direct initiation of gaseous detonations by a blast wave. For stable or weakly unstable mixtures, numerical simulations of the spherical direct initiation event and local analysis of the one-dimensional unsteady reaction zone structure identify a competition between heat release, wave front curvature and unsteadiness. The primary failure mechanism is found to be unsteadiness in the induction zone arising from the deceleration of the wave front. The quasi-steady assumption is thus shown to be incorrect for direct initiation. The numerical simulations also suggest a non-uniqueness of critical energy in some cases, and the model developed here is an attempt to explain the lower critical energy only. A critical shock decay rate is determined in terms of the other fundamental dynamic parameters of the detonation wave, and hence this model is referred to as the critical decay rate (CDR) model. The local analysis is validated by integration of reaction-zone structure equations with real gas kinetics and prescribed unsteadiness. The CDR model is then applied to the global initiation problem to produce an analytical equation for the critical energy. Unlike previous phenomenological models of the critical energy, this equation is not dependent on other experimentally determined parameters and for evaluation requires only an appropriate reaction mechanism for the given gas mixture. For different fuel–oxidizer mixtures, it is found to give agreement with experimental data to within an order of magnitude
Water resource problems of energy projects in the Colorado River Basin
The successful development of western coal and oil shale deposits
is dependent, to a significant degree, on the availability of adequate
water supplies. EQL is involved in a study of the aggregate effects
of various energy activities in the upper Colorado River Basin on
downstream water quantity and quality. These activities will tend
to reduce the available water in the river, and could increase its
salinity, which is already so high as to interfere with downstream
domestic and agricultural use
Tax Writeoffs and the Value of Sports Teams
Because of IRS treatment of player contracts, purchase of a professional sports team offers a special tax shelter to investors. The effect of the tax shelter on valuation of a team is summarized, together with an analysis of current rates of return that can be earned from investing in “average” teams in baseball, football, and basketball. This paper addresses the problems posed in evaluating a professional sports team as a potential vehicle for investment. These problems arise because of the special tax sheltering advantages of team ownership
Exhaust of Underexpanded Jets from Finite Reservoirs
We examine the response of an underexpanded jet to a depleting, finite reservoir with
experiments and simulations. An open-ended shock tube facility with variable reservoir
length is used to obtain images of nitrogen and helium jet structures at successive instances
during the blowdown from initial pressure ratios of up to 250. The reservoir and ambient
pressures are simultaneously measured to obtain the instantaneous pressure ratio. We
estimate the time-scales for jet formation and reservoir depletion as a function of the specific
heat ratio of the gas and the initial pressure ratio. The jet structure formation time-scale
is found to become approximately independent of pressure ratio for ratios greater than
50. In the present work, no evidence of time-dependence in the Mach disk shock location
is observed for rates of pressure decrease associated with isentropic blowdown of a finite
reservoir while the pressure ratio is greater than 15. The shock location in the finite-
reservoir jet can be calculated from an existing empirical fit to infinite-reservoir jet data
evaluated at the instantaneous reservoir pressure. For pressure ratios below 15, however,
the present data deviate from a compilation of data for infinite-reservoir jets. A new fit
is obtained to data in the lower pressure regime. The self-similarity of the jet structure
is quantified and departure from similarity is noted to begin at pressure ratios lower than
about 15, approximately the same ratio which limits existing empirical fits
Numerical experiments on short-term meteorological effects on solar variability
A set of numerical experiments was conducted to test the short-range sensitivity of a large atmospheric general circulation model to changes in solar constant and ozone amount. On the basis of the results of 12-day sets of integrations with very large variations in these parameters, it is concluded that realistic variations would produce insignificant meteorological effects. Any causal relationships between solar variability and weather, for time scales of two weeks or less, rely upon changes in parameters other than solar constant or ozone amounts, or upon mechanisms not yet incorporated in the model
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