CY9001 CRYOGENIC HEAT EXCHANGERS SYLLABUS | ANNA UNIVERSITY ME CRYOGENIC ENGINEERING ELECTIVES SYLLABUS REGULATION 2009 2011 2012-2013 BELOW IS THE ANNA UNIVERSITY M.E CRYOGENIC ENGINEERING DEPARTMENT ELECTIVES SYLLABUS, TEXTBOOKS, REFERENCE BOOKS,EXAM PORTIONS,QUESTION BANK,PREVIOUS YEAR QUESTION PAPERS,MODEL QUESTION PAPERS, CLASS NOTES, IMPORTANT 2 MARKS, 8 MARKS, 16 MARKS TOPICS. IT IS APPLICABLE FOR ALL STUDENTS ADMITTED IN THE YEAR 2011 2012-2013 (ANNA UNIVERSITY CHENNAI,TRICHY,MADURAI,TIRUNELVELI,COIMBATORE), 2009 REGULATION OF ANNA UNIVERSITY CHENNAI AND STUDENTS ADMITTED IN ANNA UNIVERSITY CHENNAI DURING 2010
CY9001 CRYOGENIC HEAT EXCHANGERS L T P C
3 0 0 3 UNIT I ADVANCED HEAT TRANSFER: 9
steady state conduction with two and three dimension with heat generation, solution of problem
by numerical, finite difference and graphical methods, matrix, finite element methods, transient
heat conduction and solution by analytical correlation for convective heat transfer for natural and
forced convection, transition flow, flow outside of duets, boiling heat transfer coefficients
.pressure drop in two phase flow, frost formulation ,condensation ,heat transfer coefficient
during condensation.
9
UNIT II 9
Shell & tube type heat exchangers-design, Fin effectiveness, surface effectiveness and overall
coefficients of heat transfer. Overall pressure drop, effectiveness- NTU approach solution by
equations and graphical methods,. Effect of heat-exchanger effect of various specific on
exchanger performance.
UNIT III
Design of regenerative type heat exchanger for single and multi stage, Philips, Gifford single
volume, double volume, Vuilleumier, magnetic cry refrigerators. Design of heat exchangers for
liquefaction systems, single tube, and double tube Linde heat exchangers three channel heat
exchangers, multiple tube type, Giaque Hampton and Collins type heat exchangers.
UNIT IV 9
Finned tube and plate type heat exchangers, different configuration heat transfer coefficients
and friction coefficient for various configurations. Single tube Linde exchanger, double tube
type, three channel heat exchanger. Linde multiple tube type, Giauque Hampson, Collin’s,
UNIT V 9
Plate fin heat exchanger, different fin configuration, heat transfer coefficients, and friction
factors for various configurations. Testing of heat exchangers as per standards.
TOTAL : 45 PERIODS
REFERENCES:
1. Saunders, E.A.D., ”Heat exchange – selection design and construction”, Longmann Scientific
and Technical, N.Y.2001.
2. Kays, V.A and London,A.L., “Compact Heat Exchangers”, McGraw Hill, 2002
3. Holger Martin , “Heat Exchanger” Hemisphere Publ.Corp., Washington,2001
4. Kuppan,T., “Heat Exchangert Design Handbook”, Macel Dekker, Inc., N.Y.,2000
5. Seikan Ishigai, “Steam Power Engineering, Thermal and Hydraulic Design Principles”,
Cambridge Univ. Press,2001
CY9001 CRYOGENIC HEAT EXCHANGERS L T P C
3 0 0 3 UNIT I ADVANCED HEAT TRANSFER: 9
steady state conduction with two and three dimension with heat generation, solution of problem
by numerical, finite difference and graphical methods, matrix, finite element methods, transient
heat conduction and solution by analytical correlation for convective heat transfer for natural and
forced convection, transition flow, flow outside of duets, boiling heat transfer coefficients
.pressure drop in two phase flow, frost formulation ,condensation ,heat transfer coefficient
during condensation.
9
UNIT II 9
Shell & tube type heat exchangers-design, Fin effectiveness, surface effectiveness and overall
coefficients of heat transfer. Overall pressure drop, effectiveness- NTU approach solution by
equations and graphical methods,. Effect of heat-exchanger effect of various specific on
exchanger performance.
UNIT III
Design of regenerative type heat exchanger for single and multi stage, Philips, Gifford single
volume, double volume, Vuilleumier, magnetic cry refrigerators. Design of heat exchangers for
liquefaction systems, single tube, and double tube Linde heat exchangers three channel heat
exchangers, multiple tube type, Giaque Hampton and Collins type heat exchangers.
UNIT IV 9
Finned tube and plate type heat exchangers, different configuration heat transfer coefficients
and friction coefficient for various configurations. Single tube Linde exchanger, double tube
type, three channel heat exchanger. Linde multiple tube type, Giauque Hampson, Collin’s,
UNIT V 9
Plate fin heat exchanger, different fin configuration, heat transfer coefficients, and friction
factors for various configurations. Testing of heat exchangers as per standards.
TOTAL : 45 PERIODS
REFERENCES:
1. Saunders, E.A.D., ”Heat exchange – selection design and construction”, Longmann Scientific
and Technical, N.Y.2001.
2. Kays, V.A and London,A.L., “Compact Heat Exchangers”, McGraw Hill, 2002
3. Holger Martin , “Heat Exchanger” Hemisphere Publ.Corp., Washington,2001
4. Kuppan,T., “Heat Exchangert Design Handbook”, Macel Dekker, Inc., N.Y.,2000
5. Seikan Ishigai, “Steam Power Engineering, Thermal and Hydraulic Design Principles”,
Cambridge Univ. Press,2001
No comments:
Post a Comment
Any doubt ??? Just throw it Here...