1,403 research outputs found
Preliminary design of two Space Shuttle fluid physics experiments
The mid-deck lockers of the STS and the requirements for operating an experiment in this region are described. The design of the surface tension induced convection and the free surface phenomenon experiments use a two locker volume with an experiment unique structure as a housing. A manual mode is developed for the Surface Tension Induced Convection experiment. The fluid is maintained in an accumulator pre-flight. To begin the experiment, a pressurized gas drives the fluid into the experiment container. The fluid is an inert silicone oil and the container material is selected to be comparable. A wound wire heater, located axisymmetrically above the fluid can deliver three wattages to a spot on the fluid surface. These wattages vary from 1-15 watts. Fluid flow is observed through the motion of particles in the fluid. A 5 mw He/Ne laser illuminates the container. Scattered light is recorded by a 35mm camera. The free surface phenomena experiment consists of a trapezoidal cell which is filled from the bottom. The fluid is photographed at high speed using a 35mm camera which incorporated the entire cell length in the field of view. The assembly can incorporate four cells in one flight. For each experiment, an electronics block diagram is provided. A control panel concept is given for the surface induced convection. Both experiments are within the mid-deck locker weight and c-g limits
Preserving the Truth_Editors Preface
Written as an editors preface to Preserving the Truth by Cherie Kropp-Ehrig, for which I was a co-editor. This preface was ultimately not included in the published monograph
The Value of Genetic Information to Bull Buyers: A Combined Revealed, Stated Preference Approach
Livestock Production/Industries,
Apparatus analysis and preliminary design of low gravity porous solids experiment for STS Orbiter mid-deck
The apparatus analysis laboratory equipment design and fabrication and the preliminary design of the Combustion of Porous Solids Experiment for operation in the mid-deck area of the Shuttle are described. The apparatus analysis indicated that the mid-deck region of the STS was a feasible region of the Shuttle for operation. A sixteen tube concept was developed with tubes of 75 cm length and up to 5.6 cm accommodated. The experiment is viewed by IR sensors and a 16 mm camera. Laboratory equipment was designed and fabricated to test the parible injection, mixing and venting concepts. This equipment was delivered to NASA/LeRC. A preliminary design was made for the experiment based upon the apparatus analysis. The design incorporated results from the Phase ""O'' Safety Review. This design utilizes a closed tube concept in which the particles are stored, injected and burned with no coupling to the Shuttle environment. Drawings of the major components and an assembly are given. The electronics are described for the experiment. An equipment list is presented and an experiment weight estimate is determined. The mission operation requirements are outlined
Detection of Cracks Adjacent to Spotwelds by Radiography in Thin Stainless Steel Sheet
Radiographic detection of cracks adjacent to spotwelds in thin stainless steel shee
Lot Splitting in Stochastic Flow Shop and Job Shop Environments
In recent years many firms have been implementing small lot size production. Lot
splitting breaks large orders into smaller transfer lots and offers the ability to move
parts more quickly through the production process. This paper extends the deterministic
studies by investigating various lot splitting policies in both stochastic job
shop and stochastic flow shop settings using performance measures of mean flow
time and the standard deviation of flow time. Using a computer simulation experiment,
we found that in stochastic dynamic job shops, the number of lot splits is more important
than the exact fonn of splitting. However, when optimal job sizes are determined for
each scenario, we found a few circumstances where the implementation of a small
initial split, called a "flag," can provide measurable improvement in flow time
performance. Interestingly, the vast majority of previous research indicates that
methods other than equal lot splitting typically improves makespan performance.
The earlier research, however, has been set in the static, deterministic flow shop
environment. Thus, our results are of practical interest since they show that the
specific method of lot splitting is important in only a small set of realistic environments
while the choice of an appropriate number of splits is typically more important
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