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1	Construction, theory, and application of non-linear titanate condensers Hobson, John Peter January 1950 (has links) A method for the making of non linear barium titanate condensers for audio frequencies is described. Preliminary measurements on these condensers are given. An idealized theory for the behaviour of the non linear condensers in a carrier amplifier circuit is developed. A carrier amplifier built on this principle is described. A theoretically possible power amplification for this amplifier of 180 is derived. Experimental results obtained with the carrier amplifier are given. A power amplification of 70 was obtained. Conclusions on the possible applications of non linear condensers are drawn. / Science, Faculty of / Physics and Astronomy, Department of / Graduate Condensers, Non-linear
2	A three-dimensional mechanistic model of steam condensers using porous medium formulation Al-johani, Mohammed S. 05 1900 (has links) No description available. Condensers (Steam) Condensers (Vapors and gases) Porous materials
3	Heat transfer in an eighty square feet surface condenser Pippin, Clarence Andrew. January 1941 (has links) LD2668 .T4 1941 P51 / Master of Science Condensers (Steam) Masters theses
4	Investigations into the applicability of using steam ejectors together with direct contact condensation in the design of a compact condenser 02 March 2015 (has links) M.Ing. / Please refer to full text to view abstract Steam-engines Condensers (Steam)
5	A computational model of steam surface condenser performance Pearce, Richard E. Becker, Bryan R. January 2005 (has links) Thesis (Ph. D.)--School of Computing and Engineering and Dept. of Mathematics and Statistics. University of Missouri--Kansas City, 2005. / "A dissertation in engineering and mathematics." Advisor: Bryan R. Becker. Typescript. Vita. Title from "catalog record" of the print edition Description based on contents viewed March 12, 2007. Includes bibliographical references (leaves 216-220). Online version of the print edition. Condensers (Steam) Heat
6	Multicomponent transfer processes in condensation Panchal, C. B. January 1977 (has links) No description available. 660 Vertical condensers
7	Performance trends of an air-colled steam condenser under windy conditions / Van Rooyen, J. A. January 2007 (has links) Thesis (MScIng)--University of Stellenbosch, 2007. / Bibliography. Also available via the Internet. Condensers (Steam) Aerothermodynamics.
8	A simulation model for partial condensers / Beba, Ali. January 1976 (has links) Thesis (Ph.D.)--University of Tulsa, 1976. / Bibliography: leaves 78-80. Condensers (Vapors and gases) Heat
9	Elektrische untersuchungen: I. Über oscillatorische kondensatorentladungen II. Über die leitfähigkeit von explodierenden gasgemischen ... Schuh, Heinrich, January 1905 (has links) Inaug.-diss.--Marburg. / Lebenslauf. Condensers. Electric conductivity.
10	On-line condenser water flow measurement Pillay, Devendren 13 May 2014 (has links) M.Tech. (Mechanical Engineering Technology) / This project researched the feasibility of using an existing mitre bend on the main condenser crossover ducting as an on-line flow measuring system. This flow measurement is based on the principle of an elbow type of flow meter. There are no detailed published standards or specifications available for Elbow flow meters. The knowledge of the cooling water flow rate through the individual condensers would allow turbine heat rate calculations to be performed. In addition condenser, cooling tower and cooling water pump performance can be evaluated. An on-line system would also highlight potential problems sooner, thus eliminating costly unplanned shutdowns. The majority of the straight length of condenser cooling water piping is under concrete, thus making access very difficult. The exposed condenser piping geometry is not ideal, with very distorted flow profiles expected, due to bends, valves, reducers, etc. Conventional flow measuring systems can therefore not be used, as ideal flow conditions (profiles) before and after the measuring instrument are required to er.sure the specified accuracy. The mitre bend being part of the piping geometry does not introduce additional head loss to the system and coupled to the low cost factor of an elbow type meter was the principal reason for the choice of this type of measuring system. Part of the innovative aspect of this research is that a conventional elbow is not used but an existing mitre bend is utilised as the fundamental flow measuring device. The Elbow/Bend differential pressure method to measure the condenser cooling water flow rate was investigated in the Flow laboratory at Eskom (Technology Research and Investigations). A geometrically similar mitre bend was purchased and installed onto the 700 mm NB pipeline at the laboratory. The diametrical differential pressure was measured at the 22.5° and 45°axes of the 0.8 D mitre bend. The differential pressure was related to the fluid flow rate, and a calibration constant C was determined. The velocity profiles under the test conditions were verified. A Computational Fluid Dynamics model of the laboratory mitre bend was also produced. The model provided a clearer understanding of the internal flow patterns and the exact pressures on the inside and outside of the bend. The tests that were conducted in the laboratory confirmed the suitability of converting the main condenser crossover ducting mitre bends into an on-line cooling water flow measuring systems. Condensers (Steam) Flow meters

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