Page 60 - ECLECTIC MARCH-2022 INSIDE PAGES_p2.indd
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ure 4.2:
Figure 4.3: Figure 4.5:
Following are the screenshots of calculation sheet:
ACKNOWLEDGMENT
We would like to express our sincere gratitude to Mr.
Snehasis Samaddar (VP, Generation) and Mr. Sibir Roy
(GM, BBGS) for their immense support and guidance.
REFERENCES
[1] S. Sherikar. “Method of determining valve leakage
based on upstream and downstream temperature
measurements. “U.S.Patent 7031 851, Apr 18,2006.
[2] Determining Internal Leakages of High Pressure
and Temperature Steam Valves by Sulaiman Ahmed
Sadeck Bapeekee, July 2015.
[3] F. lncropera, D. Dewitt, T Bergman, A. Lavine.
Fundamentals of Heat and Mass Transfer. New York:
Wiley, 2007, pp.571-582.
[4] D.G. Kroger. Air-Cooled Heat Exchangers and Cooling
Towers. Oklahoma: PennWell Corparation, 2004, A.1-3.
Figure 4.4:
60
Figure 4.3: Figure 4.5:
Following are the screenshots of calculation sheet:
ACKNOWLEDGMENT
We would like to express our sincere gratitude to Mr.
Snehasis Samaddar (VP, Generation) and Mr. Sibir Roy
(GM, BBGS) for their immense support and guidance.
REFERENCES
[1] S. Sherikar. “Method of determining valve leakage
based on upstream and downstream temperature
measurements. “U.S.Patent 7031 851, Apr 18,2006.
[2] Determining Internal Leakages of High Pressure
and Temperature Steam Valves by Sulaiman Ahmed
Sadeck Bapeekee, July 2015.
[3] F. lncropera, D. Dewitt, T Bergman, A. Lavine.
Fundamentals of Heat and Mass Transfer. New York:
Wiley, 2007, pp.571-582.
[4] D.G. Kroger. Air-Cooled Heat Exchangers and Cooling
Towers. Oklahoma: PennWell Corparation, 2004, A.1-3.
Figure 4.4:
60
