1,129 research outputs found

    Bloomfield Farm Rain-Garden Redesign

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    Historically, stormwater has been treated as a liability in the built environment. But the installation of a rain garden allows homeowners and organizations to view stormwater as an asset. Water that would otherwise be funneled into a complex system of pipes and ultimately released into our local streams or rivers, instead slowly infiltrates the soil of the garden, where it either recharges the existing ground water supply, or is taken up by the established plant community. My project examines two of the rain gardens already present on Bloomfield Farm. Both gardens experienced significant plant loss when the landscape plugs were installed, and as a result there are an abundance of invasive plant species on the site. My intention is to redesign both gardens so that they function effectively at water collection and infiltration, and add aesthetic value to Bloomfield Farm. Both gardens will be installed in April, 2017 with a community of plants native to Eastern North America that will look beautiful four seasons of the year and provide important benefits to pollinator species

    Performance of semi-transportation-cooled liner in high-temperature-rise combustors

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    Results from tests with the Lamilloy combustor liner are compared with results obtained from a conventionally designed, film cooled, step-louver liner. Operation of the Lamilloy liner with counterrotating swirl combustor fuel modules with mixing venturis was possible to a fuel-air ratio of 0.065 without obtaining excessive liner metal temperatures. At the 0.065 fuel-air condition the average liner metal temperature was 140 K and the maximum local temperature 280 K above the inlet air temperature. Combustion efficiency, pattern factor, and smoke data are discussed

    Combustion gas properties of various fuels of interest to gas turbine engineers

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    A series of computations were made using the gas property computational schemes of Gordon and McBride to compute the gas properties and species concentration of ASTM-Jet A and dry air. The computed gas thermodynamic properties in a revised graphical format which gives information which is useful to combustion engineers is presented. A series of reports covering the properties of many fuel and air combinations will be published. The graphical presentation displays on one chart of the output of hundreds of computer sheets. The reports will contain microfiche cards, from which complete tables and graphs can be obtained. The extent of the planned effort and is documented samples of the many tables and charts that will be available on the microfiche cards are presented

    Preliminary tests of an advanced high-temperature combustion system

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    A combustion system has been developed to operate efficiently and with good durability at inlet pressures to 4.05 MPa (40 atm), inlet air temperatures to 900 K, and exhaust gas temperatures to 2480 K. A preliminary investigation of this system was conducted at inlet pressures to 0.94 MPa (9 atm), a nominal inlet air temperature of 560 K, and exhaust gas temperatures to 2135 K. A maximum combustion efficiency of 98.5 percent was attained at a fuel-air ratio of 0.033; the combustion efficiency decreased to about 90 percent as the fuel-air ratio was increased to 0.058. An average liner metal temperature of 915 K, 355 kelvins greater than the nominal inlet air temperature, was reached with an average exhaust gas temperature of 2090 K. The maximum local metal temperature at this condition was about 565 kelvins above the nominal inlet air temperature and decreased to 505 kelvins above with increasing combustor pressure. Tests to determine the isothermal total pressure loss of the combustor showed a liner loss of 1.1 percent and a system loss of 6.5 percent

    Combustion Gas Properties I-ASTM Jet a Fuel and Dry Air

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    A series of computations was made to produce the equilibrium temperature and gas composition for ASTM jet A fuel and dry air. The computed tables and figures provide combustion gas property data for pressures from 0.5 to 50 atmospheres and equivalence ratios from 0 to 2.0

    Design and preliminary results of a semitranspiration cooled (Lamilloy) liner for a high-pressure high-temperature combustor

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    A Lamilloy combustor liner was designed, fabricated and tested in a combustor at pressures up to 8 atmospheres. The liner was fabricated of a three layer Lamilloy structure and designed to replace a conventional step louver liner. The liner is to be used in a combustor that provides hot gases to a turbine cooling test facility at pressures up to 40 atmospheres. The Lamilloy liner was tested extensively at lower pressures and demonstrated lower metal temperatures than the conventional liner, while at the same time requiring about 40 percent less cooling air flow. Tests conducted at combustor exit temperatures in excess of 2200 K have not indicated any cooling or durability problems with the Lamilloy linear

    On the Maximum Expected Electric Field in Electrically Small, Undermoded Enclosures

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    This paper reports the experimental validation of an improved statistical model for the prediction of maximum expected electric field in electrically small and under-moded enclosures. The aerospace community is interested in application of Hills statistical models to design of avionics boxes for shielding effectiveness and for tailoring EMC test requirements for critical applications. However, it is observed that the probability distribution for mean-squared electric field (|E(sub x)|(exp 2)) in an electrically small enclosure differs from the exponential distribution which is widely used in reverberation chamber testing. It is postulated here that the difference is attributable to the under-moded character of the small enclosure. We will define under-moded as the condition where a single excitation frequency does not excite enough closely spaced resonant modes to achieve Hills assumption of an isotropic (or fully diffuse) plane wave field in the enclosure

    Folklore Term Paper: Pow-wow

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    A typed term paper entitled, Pow-Wow , completed at Franklin and Marshall College by John D. Trout III, dating from circa 1950. Within, Trout details a variety of pow-wow cures he learned during his fieldwork in Lancaster, Berks and Chester County, Pennsylvania, ranging from cures for toothache to a method to relieve bloated cows.https://digitalcommons.ursinus.edu/shoemaker_documents/1136/thumbnail.jp
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