8,963 research outputs found
Method and apparatus for contour mapping using synthetic aperture radar
By using two SAR antennas spaced a known distance, B, and oriented at substantially the same look angle to illuminate the same target area, pixel data from the two antennas may be compared in phase to determine a difference delta phi from which a slant angle theta is determined for each pixel point from an equation Delta phi = (2 pi B/lambda)sin(theta - alpha), where lambda is the radar wavelength and alpha is the roll angle of the aircraft. The height, h, of each pixel point from the aircraft is determined from the equation h = R cos theta, and from the known altitude, a, of the aircraft above sea level, the altitude (elevation), a', of each point is determined from the difference a - h. This elevation data may be displayed with the SAR image by, for example, quantizing the elevation at increments of 100 feet starting at sea level, and color coding pixels of the same quantized elevation. The distance, d, of each pixel from the ground track of the aircraft used for the display may be determined more accurately from the equation d = R sin theta
Coaxial cable connector
A coaxial cable connector is provided, which resists radio frequency breakdown in coaxial cables used in the vacuum of outer space. The connector body surrounds an insulator which includes an easily compressible elastomeric portion. An insulated coaxial cable is prepared so that its insulation projects beyond the outer conductor and compresses the elastomeric portion of the connector insulator
Las bellezas naturales y las interesantes pinturas rupestres de la Cueva de Ardales [Texto impreso]
Recorte de prensa sobre las pinturas rupestres de la Cueva de Ardales. Sección: "De la España artÃstica y pintoresca". (Con fotografÃas)
Experimental validation of an optical and thermal model of a Linear Fresnel Collector
2nd European Conference on Polygeneration – 30th March 1st April, 2011– Tarragona, SpainThis paper describes the design and validation of a mathematical model for a solar Fresnel collector. The function of the model is to simulate the optical and thermal dynamics of a Fresnel system for heating water. The model is validated using real data gathered from a cooling plant with double effect absorption chiller located in the School of Engineering University of Seville, Spain (Experimental cooling plant is also described in the paper). Comparison of calculated and plant measured data shows that the error is lower than 3% in the optical model and within 7% in the thermal model.
The model uses a new approach to include a solar tracking mirror mechanism in one axis. This tracking has been designed to maximise the reception of available solar radiation by the absorption pipe. The thermal model used is based around classical models for solar receivers and it is validated with real operating data gathered from a supervisor system.
The Fresnel model has been designed with sufficient flexibility to consider different geometries and thermal parameters, and may be used to simulate the performance of a proposed Fresnel collector system at any location
New simulations to qualify eutectic lithium-lead as breeder material
Pb17Li is today a reference breeder material in diverse fusion R&D programs worldwide. One of the main issues is the problem of liquid metals breeder blanket behavior. The knowledge of eutectic properties like optimal composition, physical and thermodynamic behavior or diffusion coefficients of Tritium are extremely necessary for current designs. In particular, the knowledge of the function linking the tritium concentration dissolved in liquid materials with the tritium partial pressure at a liquid/gas interface in equilibrium, CT =f(PT ), is of basic importance because it directly impacts all functional properties of a blanket determining: tritium inventory, tritium permeation rate and tritium extraction efficiency. Nowadays, understanding the structure and behavior of this compound is a real goal in fusion engineering and materials science. Atomistic simulations of liquids can provide much information; not only supplementing experimental data, but providing new tests of theories and ideas, making specific predictions that require experimental tests, and ultimately helping to a deeper understandin
Stable Determination of the Electromagnetic Coefficients by Boundary Measurements
The goal of this paper is to prove a stable determination of the coefficients
for the time-harmonic Maxwell equations, in a Lipschitz domain, by boundary
measurements
Higher Degree Erdos-Ginzburg-Ziv Constants
We generalize the notion of Erd\H{o}s-Ginzburg-Ziv constants -- along the
same lines we generalized in earlier work the notion of Davenport constants --
to a ``higher degree" and obtain various lower and upper bounds. These bounds
are sometimes exact as is the case for certain finite commutative rings of
prime power cardinality. We also consider to what extent a theorem due
independently to W.D.~Gao and the first author that relates these two
parameters extends to this higher degree setting. Two simple examples that
capture the essence of these higher degree Erd\H{o}s-Ginzburg-Ziv constants are
the following. 1) Let denote the adic valuation of the integer
. Suppose we have integers and , then
every sequence over of length contains a
subsequence of length for which , and this is sharp. 2) Suppose
for some integer . Then every sequence over
of length contains a subsequence of length
for which . These
examples illustrate that if a sequence of elements from a finite commutative
ring is long enough, certain symmetric expressions (symmetric polynomials) have
to vanish on the elements of a subsequence of prescribed length. The
Erd\H{o}s-Ginzburg-Ziv Theorem is just the case where a sequence of length
over contains a subsequence of
length that vanishes when substituted in the linear symmetric polynomial
$a_1+\cdots+a_n.
New Multiphase CP and DP 1000 MPa strength level grades for improved performance after hot forming
Pure martensitic steels have after hot forming limited performance in terms of rest ductility which limits the application in crash relevant parts. New steel grades were designed in the EU project HOTFORM including the corresponding process routes. These steel grades have ferritic-martensitic dual phase (DP) and martensitic-bainitic complex phase (CP) microstructures after hot forming process. The laboratory tests show an improved formability after hot forming. The basic concepts of the new alloys are explained. Furthermore, for validation of upscaling purposes a semi-industrial test is carried out and the results are discussed. The main application is for vehicle safety. This is evaluated by comparing the crash performance of these hot formed grades with cold rolled DP1000 and CP1000 for crash cans in a drop tower test.The research leading to these results was carried out in the framework of HOTFORM project with a financial grant of the Research Programme RFCS (Research Funds for Coal and Steel) under grant agreement (RFSR-CT-2015-00017)
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