Related articles in HEDH:

1. Critical heat flux:

1. in axial flow reboilers, 3.6.2-9 - 3.6.2-13

2. in countercurrent flow, 2.7.3-33 - 2.7.3-34

3. enhancement of, in boiling in tubes, 2.7.9-19 - 2.7.9-26

4. in evaporators, 3.5.7-5

5. in flow in horizontal tubes, 2.7.4-7 - 2.7.4-8

1. Merilo correlation for, 2.7.4-7 - 2.7.4-8

6. in flow in inclined tubes, 2.7.4-8

7. in flow in vertical annuli, 2.7.3-25

8. in flow in vertical tubes, 2.7.3-17 - 2.7.3-37

1. nomenclature for, 2.7.3-17

2. with nonuniform heat flux, 2.7.3-23 - 2.7.3-25

3. with uniform heat flux, 2.7.3-17 - 2.7.3-23

9. in forced convective boiling of binary and multicomponent departure from nucleate boiling, 2.7.8-9 - 2.7.8-11

1. dryout, 2.7.8-11

10. in kettle reboilers, 3.6.2-5 - 3.6.2-7

11. mechanisms of, 2.7.3-26 - 2.7.3-28

1. annular flow prediction methods for, 2.7.3-28 - 2.7.3-33

12. in microchannels, 2.13.4-19 - 2.13.4-23

13. with nonaqueous fluids, 2.7.3-34 - 2.7.3-37

14. in pool boiling, 2.7.2-13 - 2.7.2-17

1. geometric effects in, 2.7.2-14 - 2.7.2-16

2. liquid viscosity effects on, 2.7.2-14

3. mechanisms of, 2.7.2-13

4. subcooling effects on, 2.7.2-16 - 2.7.2-17

5. surface condition effects on, 2.7.2-17

6. Zuber analysis for, 2.7.2-9 - 2.7.2-13

15. in pool boiling of binary and multicomponent mixtures, 2.7.7-6 - 2.7.7-8

16. in rectangular channels, 2.7.3-20

17. in rod bundles, 2.7.3-21 - 2.7.3-22

18. outside single tubes in crossflow, 2.7.5-3 - 2.7.5-5

19. outside tubes in tube banks, 2.7.5-9 - 2.7.5-11

1. correlations for, 2.7.5-10 - 2.7.5-11

2. mechanisms of, 2.7.5-10

20. problems in vaporizer ducts, 3.18.5-2

1. in mixtures 5.2.7-2

2. in mixtures 5.2.7-5 - 5.2.7-9

3. Church and Prausnitz method for, 5.2.7-5 - 5.2.7-7