Now showing items 42-61 of 136

    • Film boiling of saturated liquid flowing upward through a heated tube : high vapor quality range 

      Laverty, W. F.; Rohsenow, Warren M. (Cambridge, Mass. : M.I.T. Dept. of Mechanical Engineering, [1964], 1964)
      Film boiling of saturated liquid flowing upward through a uniformly heated tube has been studied for the case in which pure saturated liquid enters the tube and nearly saturated vapor is discharged. Since a previous study ...
    • Film boiling on the inside of vertical tubes with upward flow of the fluid at low qualities 

      Dougall, R. S.; Rohsenow, Warren M. (Cambridge, Mass. : Dept. of Mechanical Engineering, Massachusetts Institute of Technology, [1963], 1963)
      Flow regimes, local heat transfer coefficients, and temperature distributions along the wall have been studied for film boiling inside a vertical tube with upward flow of a saturated liquid. The area of interest has been ...
    • Film condensation of liquid metals -- precision of measurement 

      Wilcox, Stanley James; Rohsenow, Warren M. (Cambridge, Mass. : M.I.T. Engineering Projects Laboratory, Dept. of Mechanical Engineering, [1969], 1969)
      Major differences exist in results published by investigators of film condensation of liquid metal vapors. In particular, the reported dependence of the condensation coefficient on pressure has raised questions about both ...
    • Finite Element Methods 

      Lin, Daphne (2021-01-20)
    • Finite Element Methods and its Applications 

      Shin, Patrick (2021-01-21)
    • Finite Element Methods for Mechanical Engineers 

      Bardin, Sarah (2021-01-21)
    • Finite Element Methods for Mechanical Engineers 

      Bertoni, Margaret (2021-01-21)
    • Finite Element Methods Project 

      Daher, Ali (2021-01-20)
    • Finite Elements in Mechanical Engineering 

      Stahlecker, Kip (2021-01-20)
    • Forced-convection condensation inside tubes 

      Traviss, Donald P.; Baron, Anton G.; Rohsenow, Warren M. (Cambridge, Mass. : M.I.T. Heat Transfer Laboratory, [1971], 1971)
      High vapor velocity condensation inside a tube was studied analytically. The von Karman universal velocity distribution was applied to the condensate flow, pressure drops were calculated using the Lockhart- Martinelli ...
    • Forced-convection surface-boiling heat transfer and burnout in tubes of small diameters 

      Bergles A. E.; Rohsenow, Warren M. (Cambridge, Mass. : M.I.T. Dept. of Mechanical Engineering, [1962], 1962)
      A basic heat-transfer apparatus was designed and constructed for the study of forced-convection boiling in small channels. The various regions of forced-convection surface boiling were studied experimentally and analytically. ...
    • Forced-convection, dispersed-flow film boiling 

      Hynek, Scott Josef; Rohsenow, Warren M.; Bergles A. E. (Cambridge, Mass. : M.I.T. Dept. of Mechanical Engineering, [1969], 1969)
      This report presents the latest results of an investigation of the characteristics of dispersed flow film boiling. Heat transfer data are presented for vertical upflow of nitrogen in an electrically heated tube, 0.4 in. ...
    • Forces on oscillating uniform and tapered cylinders in a crossflow 

      Hover, F. S.; Techet, A. H.; Triantafyllou, M.S. (Cambridge University Press, 1998)
      Forces are measured at both ends of rigid cylinders with span 60 cm, performing transverse oscillations within an oncoming stream of water, at Reynolds number Re ~3800. Forced harmonic motions and free vibrations of ...
    • Foundations of Infrastructure CPS 

      Annaswamy, Anuradha; Hussain, Alefiya; Chakrabortty, Aranya; Cvetkovic, Milos (2015-10-07)
      Infrastructures have been around as long as urban centers, supporting a society’s needs for its planning, operation, and safety. As we move deeper into the 21st century, these infrastructures are becoming smart – they ...
    • Frequency Control using Cooperative Demand Response through Accumulated Energy 

      Cvetkovic, Milos; Annaswamy, Anuradha (2015-10-07)
      This paper proposes a hierarchical control architecture for engaging demand into providing primary frequency response services. The proposed architecture relies on the use of information about accumulated energy for the ...
    • Heat transfer and pressure drop data for high heat flux densities to water at high subcritical pressures 

      Rohsenow, Warren M.; Clark, John A. (Cambridge, Mass. : M.I.T. Division of Industrial Cooperation, 1951, 1951)
      Local surface ooeffioients of heat t-ansfer, overall pressure drop data and mean friction factor are presented for heat flamms up to 3.52106 BtuAr ft2 for water flowing in a nickel tabe isder the following conditions: mass ...
    • Heat transfer and pressure drop in tape generated swirl flow 

      Lopina, Robert F.; Bergles A. E. (Cambridge, Mass. : M.I.T. Dept. of Mechanical Engineering, [1967], 1967)
      The heat transfer and pressure drop characteristics of water in tape generated swirl flow were investigated. The test sections were electrically heated small diameter nickel tubes with tight fitting full length Inconel ...
    • Heat transfer during film condensation of a liquid metal vapor 

      Sukhatme, S. P.; Rohsenow, Warren M. (Cambridge, Mass. : M.I.T. Dept. of Mechanical Engineering, [1964], 1964)
      The object of this investigation is to resolve the discrepancy between theory and experiment for the case of heat transfer durirnfilm condensation of liquid metal vapors. Experiments by previous investigators have yielded ...
    • Heat transfer during film condensation of potassium vapor 

      Kroger, Detlev Gustav ([Cambridge, Mass.] : M.I.T. Engineering Projects Laboratory, [1966], 1966)
      The object of this work is to investigate theoretically and experimentally the following two phases of heat transfer during condensation of potassium vapore, a. Heat transfer during film condensation of pure saturated ...
    • Heat transfer during film condensation of potassium vapor on a horizontal plate 

      Meyrial, Paul M.; Morin, Michel L. (Cambridge, Mass. : M.I.T. Engineering Projects Laboratory, [1968], 1968)
      The object of the investigation is to analyze the following two features of heat transfer during condensation of potassium vapor: a. Heat transfer during film condensation of a pure saturated potassium vapor on a horizontal ...