ABCDEFGHIJK
Kandlikar correlation, for forced convective boiling,2.7.3-16Katto and Ohne correlation, for critical heat flux in forced convective boiling,2.7.3-35/2.7.3-36Kaunas correlation, for heat transfer in staggered high fin tube banks,2.5.3-21/2.5.3-23Kapitza number,2.1.7-4/2.1.7-5Kern method, for shell-side heat transfer in shell-and-tube heat exchangers,3.3.2-2Kern-Seaton model for fouling,3.17.3-1/3.17.3-3Taborek modification of,3.17.3-2Ketene:Ketones:
LMNOPQRSTUVWXYZliquid physical properties,5.5.10-89/5.5.10-93saturation properties,5.5.1-90/5.5.1-94superheated vapor properties,5.5.11-89/5.5.11-93transport properties at elevated pressures,5.5.14-27
Kettle reboilers:Khandekar, S,2.13.8-1/2.13.8-26Kilger, H-J,5.5.15-1/5.5.15-68Kilns, see FurnacesKinematic viscosity:Kirchoff's law, in radiative heat transfer,2.9.2-2Klincewicz and Reid correlations:Knudsen, Jmes G3.17.1-1/3.17.1-2, 3.17.3-1/3.17.3-6, 3.17.6-28/3.17.6-30, 3.17.7-18/3.17.7-19, 3.17.8-5, 3.17.8-6Kopp and Sayre method for pressure design of expansion bellows,4.10.2-4Koslov, A,3.25.1-1/3.25.6-7Kreglewski and Kay method for critical pressure of mixtures,5.2.7-5Krypton:Kulakowski, B,3.15.11-1/3.15.11-9Kumar, H3.7.1-1/3.7.3-10, 4.4.2-1/4.4.2-5, 4.8.4-1/4.8.4-2