67,735 research outputs found

    Philander Doxtader Pension Records : D. M. Bryan & G. W. Davidson General Affidavit (c. 1891-1892)

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    This affidavit mainly discusses Louisa's financial struggles following the death of Philander, though the handwriting is difficult to decipher. (Note: This document is undated, but it was produced somewhere between 1891 or 1892. No records can be found on D. M. Bryan, but George W. Davidson is well documented. His birthdate of June 19, 1834, would make him 57 years old--the age he lists on this document--from June 19, 1891, to June 19, 1892. Furthermore, the document mentions Louisa's relocation to Richmond, which city directories indicate took place in 1891)

    And he lost his patent clothes wringer his fam'ly umbrella [text varies with each verse] [first line of chorus]

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    strophic with choruspiano and voiceads on back cover for M. Witmark & Sons stockJohns Hopkins University, Levy Sheet Music Collection, Box 141, Item 103Written and Composed by Frank D. Bryan of the "National Trio.

    And he lost his patent clothes wringer his fam'ly umbrella [text varies with each verse] [first line of chorus]

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    strophic with choruspiano and voiceads on back cover for M. Witmark & Sons stockJohns Hopkins University, Levy Sheet Music Collection, Box 141, Item 103Written and Composed by Frank D. Bryan of the "National Trio.

    Loch Leven, UK: long-term (1985 to 2016) phosphorus dynamics in a shallow lake and its implications for water-quality management

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    Loch Leven is a shallow eutrophic lake in the UK with a history of eutrophication problems. Here, we document the response of internal phosphorus cycling within the lake to a reduction in catchment phosphorus load from 5.25 mg total phosphorus (TP) m-2 d-1 (1985) to between 1.44 mg TP m-2 d-1 and 2.39 mg TP m-2 d-1 (1995, 2005, 2015). Since 1989, internal loading has resulted in elevated summer TP concentrations, although the magnitude of the summer peak load has varied between about 3.5 and 0.3 mg P m-2 d-1. This variation can be explained, at least partly, by fluctuations in spring wind speed and temperature, and summer precipitation, mediated through a series of complex ecological and biogeochemical interactions. We present an empirical model that predicts the effects of future climate change on internal loading and offer recommendations for the development of short-term forecasting approaches linked to large-scale teleconnection indices, such as the North Atlantic Oscillation

    The Bryan Daily Eagle

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    Daily newspaper from Bryan, Texas that includes local, state, and national news along with advertising

    Bryan, Holland Gaines

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    Holland Gaines Bryan, LL.B. Paducah, Kentucky Patterson Literary Society; Henry Clay, President (4); Law Debating Team (2); Student Editorial Board of Kentucky Law Journal (3); Assistant Editor Kentucky Law Journal. Gaines is not from Holland, as his name might indicate. He hails from Paducah. On entering the university, Gaines, like all good lawyers, wanted an office all his own. He chose the largest in the university--the Law College library--and for the last four years Bryan has literally lived under, around and in a huge leather-bound book. As a student he is there with the goods. He has sadly neglected the ladies, but then there may be some fair and only back home. Who knows? -The Kentuckian, 1920----------------------------------- Holland Gaines Bryan (September 24, 1898 - May 25, 1966) was born in McCracken County, Kentucky to William Norfleet Bryan and Thirza Roberts. Bryan practiced law in Paducah after graduation as the junior partner of the law firm Middleton and Bryan. He would later practice law with his brother, Richard Bryan. Bryan served as Commonwealth Attorney for McCracken County between 1933 and 1949. He then served as McCracken County Circuit Court Judge from 1949 to 1957. Bryan married twice--his wives were Frances Vie Wilcox (m. 1924, d. before 1940) and Sylvia Stancil Sides (m. 1940).https://uknowledge.uky.edu/klapp_1920/1030/thumbnail.jp

    1ST MEASUREMENT OF GAMMA(D(S)(+)-]MU+NU)/GAMMA(D(S)(+)-]PHI-PI+)

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    Complete Author List: ACOSTA D, ATHANAS M, MASEK G, PAAR H, BEAN A, GRONBERG J, KUTSCHKE R, MENARY S, MORRISON RJ, NAKANISHI S, NELSON HN, NELSON TK, RICHMAN JD, RYD A, TAJIMA H, SCHMIDT D, SPERKA D, WITHERELL MS, PROCARIO M, YANG S, BALEST R, CHO K, DAOUDI M, FORD WT, JOHNSON DR, LINGEL K, LOHNER M, RANKIN P, SMITH JG, ALEXANDER JP, BEBEK C, BERKELMAN K, BESSON D, BROWDER TE, CASSEL DG, CHO HA, COFFMAN DM, DRELL PS, EHRLICH R, GALIK RS, GARCIASCIVERES M, GEISER B, GITTELMAN B, GRAY SW, HARTILL DL, HELTSLEY BK, JONES CD, JONES SL, KANDASWAMY J, KATAYAMA N, KIM PC, KREINICK DL, LUDWIG GS, MASUI J, MEVISSEN J, MISTRY NB, NG CR, NORDBERG E, OGG M, PATTERSON JR, PETERSON D, RILEY D, SALMAN S, SAPPER M, WORDEN H, WURTHWEIN F, AVERY P, FREYBERGER A, RODRIGUEZ J, STEPHENS R, YELTON J, CINABRO D, HENDERSON S, KINOSHITA K, LIU T, SAULNIER M, SHEN F, WILSON R, YAMAMOTO H, ONG B, SELEN M, SADOFF AJ, AMMAR R, BALL S, BARINGER P, COPPAGE D, COPTY N, DAVIS R, HANCOCK N, KELLY M, KWAK N, LAM H, KUBOTA Y, LATTERY M, NELSON JK, PATTON S, PERTICONE D, POLING R, SAVINOV V, SCHRENK S, WANG R, ALAM MS, KIM IJ, NEMATI B, ONEILL JJ, SEVERINI H, SUN CR, ZOELLER MM, CRAWFORD G, DAUBENMIER CM, FULTON R, FUJINO D, GAN KK, HONSCHEID K, KAGAN H, KASS R, LEE J, MALCHOW R, MORROW F, SKOVPEN Y, SUNG M, WHITE C, WHITMORE J, WILSON P, BUTLER F, FU X, KALBFLEISCH G, LAMBRECHT M, ROSS WR, SKUBIC P, SNOW J, WANG PL, WOOD M, BORTOLETTO D, BROWN DN, FAST J, MCILWAIN RL, MIAO T, MILLER DH, MODESITT M, SCHAFFNER SF, SHIBATA EI, SHIPSEY IPJ, WANG PN, BATTLE M, ERNST J, KROHA H, ROBERTS S, SPARKS K, THORNDIKE EH, WANG CH, DOMINICK J, SANGHERA S, SHELKOV V, SKWARNICKI T, STROYNOWSKI R, VOLOBOUEV I, ZADOROZHNY P, ARTUSO M, HE D, GOLDBERG M, HORWITZ N, KENNETT R, MONETI GC, MUHEIM F, MUKHIN Y, PLAYFER S, ROZEN Y, STONE S, THULASIDAS M, VASSEUR G, ZHU G, BARTELT J, CSORNA SE, EGYED Z, JAIN V, SHELDON P, AKERIB DS, BARISH B, CHADHA M, CHAN S, COWEN DF, EIGEN G, MILLER JS, OGRADY C, URHEIM J, WEINSTEIN A

    sj-docx-1-psr-10.1177_10888683231222519 – Supplemental material for On Personality Measures and Their Data: A Classification of Measurement Approaches and Their Recommended Uses

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    Supplemental material, sj-docx-1-psr-10.1177_10888683231222519 for On Personality Measures and Their Data: A Classification of Measurement Approaches and Their Recommended Uses by John D. Mayer and Victoria M. Bryan in Personality and Social Psychology Review</p

    Evaluation Of Inorganic, Hydrogen Membranes At Elevated Pressures And Temperatures

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    A membrane reactor with the capability of simultaneous high-pressure, high-temperature hydrogen permeation testing has been fabricated at the National Energy Technology Laboratory (NETL) in conjunction with the University of Pittsburgh and Parsons Project Services Incorporated. The design of the hydrogen membrane testing (HMT) unit allows for hydrogen membrane evaluation at pressures and temperatures up to 3100kPa and 1173K, respectively. The permeability experiments conducted with the NETL's HMT unit include membrane materials, such as palladium, tantalum, Inconel 600 and a cermet membrane fabricated by Argonne National Laboratories (ANL).The hydrogen permeability of palladium was found to be proportional to the following range of the partial pressure drop of hydrogen across the membrane, Delta-P^0.57-0.74. The exponent range of 0.57 to 0.74 is indicative of the mass transport of hydrogen being influenced more so by bulk diffusion (n=0.5) rather than surface dissociation (n=1). This exponential range is in good agreement with the only prior study of palladium permeability at elevated pressures, n=0.68 (Hurlbert and Konecny, 1961). The permeability data collected for the palladium membrane can be described by an Arrhenius-type expression where 9.29x10-7 mol H2 m-1s-1Pa-n and 37.5 kJ mol-1, representing the pre-exponential factor and the activation energy of permeation, respectively.The palladium permeability was also determined by assuming the partial pressure of hydrogen across the membrane to the power of 0.5, Delta-P^0.5. The permeability results appear to be in excellent agreement with the previously published correlations which assumed an exponent of 0.5 and were developed over lower temperature and/or pressure ranges than this study. The permeability of palladium obtained using this assumption can be described by an Arrhenius-type expression where 3.40x10-7 mol H2 m-1s-1Pa-0.5 and 17.29 kJ mol-1, for the pre-exponential factor and the activation energy of permeation, respectively.Preliminary tests have also been carried out with an ion-transport cermet membrane. The cermet membrane studied (ANL-1), composed of 60vol% BaCe0.8Y0.2O3 and 40vol% nickel powder was fabricated by Argonne National Laboratory, and was tested under conditions similar to those used for the palladium membranes. The cermet membrane experiments permeability was approximately one order of magnitude lower than of the palladium results with partial pressure exponent values close to 0.5. Assuming the membrane's rate limiting step being diffusion, the ANL-1 can be described by an Arrhenius type expression where 1.57x10-6 mol H2 m-1s-1Pa-0.5 and 44.06 kJ mol-1 for the pre-exponential factor and the activation energy of permeation, respectively.The first known permeability experiment of tantalum can be described by an Arrhenius type expression where 1.10x10-7 mol H2 m-1s-1Pa-0.5 and 16.63 kJ mol-1 represent the pre-exponential factor and the activation energy of permeation, respectively assuming a partial pressure exponent of 0.5. It should be noted however, that the partial exponential results varied from 0.44 to 0.68, which indicates that diffusion may not be the rate-limiting step in the hydrogen transport mechanism of tantalum. The tantalum membranes of this studied were chemically etched to reduce the surface oxides prior to testing. Surface analysis via x-ray photoelectron spectroscopy of the chemically etched tantalum membrane resulted in a negligible oxygen concentration after about 25 angstroms into the membrane, to a maximum concentration of 35% at the surface.Inconel 600 was also studied to determine the influence of the material of construction on the permeation results of the other tested materials. The permeability associated with the Inconel 600 sample was estimated to be negligible because of its permeability results being two orders of magnitude lower than that of palladium. The Arrhenius pre-exponential factor and the activation energy of permeation of the Inconel 600 membrane were 1.57x10-7 mol H2 m-1s-1Pa-0.5 and 58.70 kJ mol-1, respectivley
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