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  • 1
    Electronic Resource
    Electronic Resource
    The Role of Radiative Transfer in Maintaining the Indian Summer Monsoon Circulation (1997)
    Springer
    Pure and applied geophysics 149 (1997), S. 601-622 
    Details
    ISSN: 1420-9136
    Keywords: Key words: Atmospheric radiative transfer, circulation, Indian summer monsoon, thermal forcing.
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences , Physics
    Notes: Abstract —The radiative-convective feedback and land-sea thermal forcing play significant roles in maintenance of the summer monsoon circulation over the Indian sub-continent. In this study, the role of radiative transfer in maintaining the monsoon circulation is examined with numerical sensitivity experiments. For this purpose, a sixteen layer primitive equation limited area model is used to perform numerical simulations with and without atmospheric radiative transfer processes parameterized in the model. The initial values and boundary conditions for the numerical integrations of the model are derived from operational analyses of the ECMWF, UK. The results show that the radiative transfer is essential in maintaining the intensity of the low level Somali Jet as well as the upper level Tropical Easterly Jet (TEJ) over the Indian sub-continent and adjoining seas. The meridional circulation over the region is also well simulated. As a result, enough moisture transports from the warm equatorial region to simulate more realistic orographic precipitation in the windward side of the mountains along the West coast of India. Without radiative transfer processes in the model atmosphere the simulated monsoon circulation weakens, moisture transport decreases and the precipitation lessens.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s000240050043
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  • 2
    Electronic Resource
    Electronic Resource
    Vaporization of In2Te3(s) (1986)
    Springer
    Monatshefte für Chemie 117 (1986), S. 695-712 
    Details
    ISSN: 1434-4475
    Keywords: Indium telluride, thermodynamics, vaporization chemistry ; Torsion effusion ; Knudsen effusion ; High temperature mass spectrometry
    Source: Springer Online Journal Archives 1860-2000
    Topics: Chemistry and Pharmacology
    Description / Table of Contents: Zusammenfassung Die Chemie der Verdampfung von In2Te3(s) wurde mittels automatisierter gleichzeitiger Anwendung derKnudsen- und Torsions-Effusion, mittels Hochtem-peraturmassenspektrometrie und entsprechenden Hilfsmethoden untersucht. Es wird über die ersten absoluten Messungen des Dampfdrucks von In2Te3 berichtet. In2Te3(s) verdampfte inkongruent im Temperaturbereich von 701–889 K, wobei Te2(g) und eine feste Lösung mit der ZusammensetzungX In=0.42 undX Te=0.58 entstand. Die Standard-Enthalphie der Reaktion bei 298 K, ΔH° (298 K), war nach der Methode des dritten Gesetzes 136.0±0.3 kJ/mol. Die erwähnte feste Lösung verdampfte inkongruent unter Bildung von InTe(s) und einem Dampf, der aus Te2(g) und In2Te(g) bestand. InTe(s) verdampfte im Bereich von 701–887 K kongruent unter Bildung von Te2(g) und In2Te(g); ΔH v ° (298 K) nach dem dritten Gesetz war 201.5±1.0 kJ/mol. Diese Ergebnisse sind im Gegensatz zu Literaturangaben zur Verdampfung von In2Te3, wobei sowohl kongruente als auch inkongruente Verdampfung zu InTe(s) berichtet wurden. Außerdem wurde InTe(s) als inkongruent verdampfend beschrieben. Diese Abweichungen werden diskutiert.
    Notes: Abstract The vaporization chemistry of In2Te3(s) was studied by the computer-automated simultaneousKnudsen-effusion and torsion-effusion method, by high-temperature mass spectrometry, and by ancillary methods. The first absolute measurements of the vapor pressure of In2Te3 are reported. In2Te3(s) vaporized incongruently in the temperature range 701–889 K and produced Te2(g) and a solid-solution, (X In=0.42 andX Te=0.58). The standard enthalpy of the reaction at 298 K, ΔH° (298 K) by the third-law method was 136.0±0.3 kJ/mol of vapor. The above solid solution vaporized incongruently and produced InTe(s) and a vapor which consisted of Te2(g) and In2Te(g). InTe(s) vaporized congruently in the range 701–887 K and produced Te2(g) and In2Te(g); the third-law ΔH v ° (298 K) was 201.5±1.0 kJ/mol. These results were at variance with the literature on vaporization of In2Te3 where both congruent vaporization and incongruent vaporization to give InTe(s) are separately reported. Further, InTe(s) was reported to vaporize incongruently. These differences are discussed.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00810061
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    Paper (German National Licenses)
    Fulltext
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