Errata
Preface
Original
Correction
Page ii
…den 5 december 2013, klockan 10:00 I sal FB
52
…den 28 mars 2014, klockan 10:00 I sal FB
42
Preface Paper 5…2014. Prediction of Wall
Temperature in Post-Dryout Heat Transfer
Regime in Channels with Flow Obstacles
Paper 5. …2014. On Post-Dryout Heat
Transfer in Channels with Flow Obstacles
Preface Paper 5….submitted to…
Paper 5…published in…
The captions of the following figures from the introduction are changed as follow:
Page
Original
Correction
Page 6.
, Figure 1. The High-pressure Water Test
(HWAT) loop
Figure 1. The High-pressure Water Test
(HWAT) loop, [23]
Page 8. Figure 4. Test sections employed during
experimental runs.
Figure 4. Test sections employed during
experimental runs,[23].
Page11. Figure 8. . Thermocouple and spring during
“bundle” assembling
Figure 8. Thermocouple and spring during
“bundle” assembling,[22].
Page 17 Figure 11. Temperature deviations for rod. Figure 11. Temperature deviations for rod,[23] Page 19 Figure 14. The rod outer wall temperature withindicated error-bars. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 5 MPa, q’’= 499 kW/m2, test section A
Figure 14. The rod outer wall temperature with indicated error-bars. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 5 MPa, q’’= 499 kW/m2, test section A, [23]
Page 21 Figure 16. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 5 MPa, test section A.
Figure 16. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 5 MPa, test section A, [23]
Page 23 Figure 19. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=750 kg/m2s, inlet subcoolig ΔT=40 K, pressure P= 7 MPa, test section A.
Figure 19. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=750 kg/m2s, inlet subcoolig ΔT=40 K, pressure P= 7 MPa, test section A, [22].
Page 24 Figure 20. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 7 MPa, test section B.
Figure 20. Measured superheat of rod wall surface for various heat fluxes. Mass flux G=500 kg/m2s, inlet subcoolig ΔT=10 K, pressure P= 7 MPa, test section B,[23]
Page 26 Figure 22. Measured superheat of rod wall surface. Mass flux G=500 kg/m2s, Pressure =7 MPa, Inlet subcooling=10, Heat flux = 499 kW/m2
Figure 22. Measured superheat of rod wall surface. Mass flux G=500 kg/m2s, Pressure =7 MPa, Inlet subcooling=10, Heat flux = 499 kW/ m2, [23]