Pengaruh Buffle Cut Terhadap Unjuk Kerja Termal Dan Penurunan Tekanan Pada Alat Penukar Kalor Shell And Tube Susunan Tabung Segiempat
65
DAFTAR KEPUSTAKAAN
[1] A.Karno S. Ajib, Effect of tube pitch on heat transfer in shell-and-tube heat
exchangers-new simulation software, Heat Mass Transfer (2006) 42
:263-270
[2] E.S Gaddis, V. Gnielinski, Pressure drop on the shell side of shell and-tube heat
exchanger with segmental baffles, Chem. Eng. Process. 36 (1997) 149
- 159
[3] Huadong Li and Volker Kottke, Visualization and determination of local heat
transfer coefficients in shell and tube heat exchangers for line tube
arrangement by mass transfer measurements, Heat and Mass Transfer
33 (1998) 371- 376 @ Springer - verlag 1998
[4] Ibrahim Husin, Pengaruh jarak baffle terhadap unjuk kerja termal dan
penurunan tekanan pada alat penukar kalor shell and tube susunan
segi
tiga Tesis Magister Teknik, Jurusan Tenik Mesin Universitas
Sumatera Utara (2007)
[5] Huadong Li and Volker Kottke, Effect of baffle spacing on pressure drop and
local heat transfer in shell and tube arrangement, International
Journal, Heat Transfer Vol. 41 No. 10, Pergamon (1998)
[6] J.P. Hughes, T.E.R Jones, and P.W James, Numerical simulation and
experimental Measurements of the flow in a multi-tube heat exhanger,
Proceedings of institution of Mechanical Engineering Nov. 2005 ; 219;
E4
[7] Mica Vukic, Gradimir Ilic, Nenad Radojkovic, Velimir Stefanovic, A new
approach to the prediction and design of shell and tube heat
exchanger, Series: Mechanical Engineering Vol. 1, No. 7, 2000, pp
77 - 787
[8] Nenad Radjokovic, Gradimir Ilic , Zarko Stevanovic, Mica Vukic, Dejan
Mitrovic, Goran Vuckovic, Experimental study on thermal and flow
processes in shell and tube exchanger - influence of baffle cut on hea
exchanger efficiency, Facta Universitas Series : Mechanical
Engineering Vol 1, No. 10, 2003, pp. 1377 -1384
66
[9] Palen, J.W. and Taborek, J, Solution of shell side flow pressure drop and heat
transfer by stream analysis method. Chemical Engineering Progress
Symposium Series, 1969, 92, 53-63
[10] Rajiv Mukherjee, Effectivity Design Shell and Tube Heat Exchanger, Chemical
Engineering Process, (1998), pp. 21-37
[11] R, Kukral, L. Stephen, The effect of internal leakage on steady stade and
transient behavior of shell and tube heat exchanger, I0thInternational
Heat Transfer Conference, Bringhton, UK, August 1994, pp. 393 –
398
[12] S. Alfansury. Munawar, Pengaruh jarak baffle terhadap unjuk kerja termal
dan perurunan tekanan pada alat penukar kalor shell and tube
susunan segitiga Tesis Magister Teknik, Jurusan Teknik Mesin
Universitas Sumatera Utara (2007)
[13] SM. Tunggul, Alat Penukat Kalor (Heat Exchanger), Ed. 1. Cet.1 - Jakarta :
PT. Raja Grafindo Persada, Jakarta (1993), pp. 43-47
[14] Taborek, J. Hewitt, G.F and Afgan, N, Heat Exchanger Design and
Practice,in Heat Exchanger Theory and Practice, by Taborek, J,
Hewitt G.F and Afgan, N, Mc Graw Hill Book Company, New York
(1983), pp. 615-629
[15] Tinker, T, Shell side characteristic of shell and tube heat exchanger, parts I, II,
III, General Discussion on Heat Transfer. The Institute of Mechanical
Engineering, London, 1951, pp. 89-116.
[16] Uday C. Kapale, Satish Chand, Modeling for shell-side pressure drop for
liquid flow in shell-and-tube heat exchanger International Journal
ofHeat and Mass Tranfer 49 ( 2006) 601 – 610
[17] Saffar M. Avval, Damangir, E and Mehdizadeh N.S, Optimum selection of
inter baffle spacing in shell and tube heat exchanger, CSME Mech.
Energy, Forum 1, Toronto, (1990), pp. 461-465
[18] Kakac Sadik and Liu Hongtan, Heat Exchanger, Selection Rating and Thermal
Design, second edition, CRC Press, New York (2002), pp. 310
[19] Kern, D.Q, Process Heat Transfer. 2nd edition, Mc Graw Hill Book Company
Inc, Tokyo, (1983), pp. 226
67
[20] Soltan , B.K, Avval, M.S, and Damangir E, Minimazing Capital and Operating
Cost of Shell and Tube Condenser Using Optimum Baffle Spacing
Applied Thermal Engineering 24, Elsevier (2004), pp. 2801-2810
[21] Yilmaz, M, The Effect of Inlet Flow Baffle on Heat Transfer, Int. Comm. Heat
Transfer, Vol. 30, No. 8, pp. 1169-1178, Elsevier, USA, (2003), pp.
1969-1178
[22] Taborek, J. Hewitt, G.F and Afgan, N, Heat Exchanger Design and Practice,
in Heat Exchanger Theory and Practice, by Taborek, J, Hewitt, G.F
Afgan, N, Mc Graw Hill Book Company, New York (1983), pp.265285
[23] Holman, J.P. Perpindahan Kalor, edisi keenam, Penerbit Erlangga, (1997),
hal.226-227
[24] Janna, S.W, Design of Fluid Thermal System, PWS Publishing Company,
Boston, (1993), pp. 268
[25] Sparrow, E.M and Perez, J.A. Internal shellside heat transfer and pressure
drop characteristic for a shell and tube heat exchanger, Journal of
heat transfer vol. 107, (1985), pp. 345-353
[26] Pekdemir, T, Davies, T.W, Haseler, L.E and Diaper, A.D, Flow distribution
on the shellside of a cylindrical shell and tube heat exchanger,
International Journal of Heat and Fluid Flow, Vol. 14 Issue 1,
March, Published by Elsevier Science Inc, (1993), pp. 76-85
[27] Jegede, F.O, and Polley, G.T, Optimum Heat Exchanger Design, Trans I Chem
E, Vol. 70, Part A March, (1992), pp. 133-141
[28] Sappu, Frans Palobo, Investigasi pengaruh sudut kemiringan baffle terhadap
unjuk kerja thermal dan kerugian tekanan pada alat penukar kalo
jenis shell and tube, Tesis Magister, Jurusan Teknik Mesin
Universitas Gajah Mada, (2000)
[29}Hewitt, G.F, Shires, G.L and Bott, T.R, Process Heat Transfer, CRC Press Inc,
USA, (1994), pp. 272
[30] Yunus A. Cengel, Heat Transfer A Practical Approach, Second Edition,
International Edition, Mc Graw-Hill, Book Company, Inc,
Singapore (2003), pp. 690-694
68
[31] Kreith, F, Prinsip-Prinsip Perpindahan Panas, edisi ketiga, Penerbit Erlangga,
(1997), pp.
DAFTAR KEPUSTAKAAN
[1] A.Karno S. Ajib, Effect of tube pitch on heat transfer in shell-and-tube heat
exchangers-new simulation software, Heat Mass Transfer (2006) 42
:263-270
[2] E.S Gaddis, V. Gnielinski, Pressure drop on the shell side of shell and-tube heat
exchanger with segmental baffles, Chem. Eng. Process. 36 (1997) 149
- 159
[3] Huadong Li and Volker Kottke, Visualization and determination of local heat
transfer coefficients in shell and tube heat exchangers for line tube
arrangement by mass transfer measurements, Heat and Mass Transfer
33 (1998) 371- 376 @ Springer - verlag 1998
[4] Ibrahim Husin, Pengaruh jarak baffle terhadap unjuk kerja termal dan
penurunan tekanan pada alat penukar kalor shell and tube susunan
segi
tiga Tesis Magister Teknik, Jurusan Tenik Mesin Universitas
Sumatera Utara (2007)
[5] Huadong Li and Volker Kottke, Effect of baffle spacing on pressure drop and
local heat transfer in shell and tube arrangement, International
Journal, Heat Transfer Vol. 41 No. 10, Pergamon (1998)
[6] J.P. Hughes, T.E.R Jones, and P.W James, Numerical simulation and
experimental Measurements of the flow in a multi-tube heat exhanger,
Proceedings of institution of Mechanical Engineering Nov. 2005 ; 219;
E4
[7] Mica Vukic, Gradimir Ilic, Nenad Radojkovic, Velimir Stefanovic, A new
approach to the prediction and design of shell and tube heat
exchanger, Series: Mechanical Engineering Vol. 1, No. 7, 2000, pp
77 - 787
[8] Nenad Radjokovic, Gradimir Ilic , Zarko Stevanovic, Mica Vukic, Dejan
Mitrovic, Goran Vuckovic, Experimental study on thermal and flow
processes in shell and tube exchanger - influence of baffle cut on hea
exchanger efficiency, Facta Universitas Series : Mechanical
Engineering Vol 1, No. 10, 2003, pp. 1377 -1384
66
[9] Palen, J.W. and Taborek, J, Solution of shell side flow pressure drop and heat
transfer by stream analysis method. Chemical Engineering Progress
Symposium Series, 1969, 92, 53-63
[10] Rajiv Mukherjee, Effectivity Design Shell and Tube Heat Exchanger, Chemical
Engineering Process, (1998), pp. 21-37
[11] R, Kukral, L. Stephen, The effect of internal leakage on steady stade and
transient behavior of shell and tube heat exchanger, I0thInternational
Heat Transfer Conference, Bringhton, UK, August 1994, pp. 393 –
398
[12] S. Alfansury. Munawar, Pengaruh jarak baffle terhadap unjuk kerja termal
dan perurunan tekanan pada alat penukar kalor shell and tube
susunan segitiga Tesis Magister Teknik, Jurusan Teknik Mesin
Universitas Sumatera Utara (2007)
[13] SM. Tunggul, Alat Penukat Kalor (Heat Exchanger), Ed. 1. Cet.1 - Jakarta :
PT. Raja Grafindo Persada, Jakarta (1993), pp. 43-47
[14] Taborek, J. Hewitt, G.F and Afgan, N, Heat Exchanger Design and
Practice,in Heat Exchanger Theory and Practice, by Taborek, J,
Hewitt G.F and Afgan, N, Mc Graw Hill Book Company, New York
(1983), pp. 615-629
[15] Tinker, T, Shell side characteristic of shell and tube heat exchanger, parts I, II,
III, General Discussion on Heat Transfer. The Institute of Mechanical
Engineering, London, 1951, pp. 89-116.
[16] Uday C. Kapale, Satish Chand, Modeling for shell-side pressure drop for
liquid flow in shell-and-tube heat exchanger International Journal
ofHeat and Mass Tranfer 49 ( 2006) 601 – 610
[17] Saffar M. Avval, Damangir, E and Mehdizadeh N.S, Optimum selection of
inter baffle spacing in shell and tube heat exchanger, CSME Mech.
Energy, Forum 1, Toronto, (1990), pp. 461-465
[18] Kakac Sadik and Liu Hongtan, Heat Exchanger, Selection Rating and Thermal
Design, second edition, CRC Press, New York (2002), pp. 310
[19] Kern, D.Q, Process Heat Transfer. 2nd edition, Mc Graw Hill Book Company
Inc, Tokyo, (1983), pp. 226
67
[20] Soltan , B.K, Avval, M.S, and Damangir E, Minimazing Capital and Operating
Cost of Shell and Tube Condenser Using Optimum Baffle Spacing
Applied Thermal Engineering 24, Elsevier (2004), pp. 2801-2810
[21] Yilmaz, M, The Effect of Inlet Flow Baffle on Heat Transfer, Int. Comm. Heat
Transfer, Vol. 30, No. 8, pp. 1169-1178, Elsevier, USA, (2003), pp.
1969-1178
[22] Taborek, J. Hewitt, G.F and Afgan, N, Heat Exchanger Design and Practice,
in Heat Exchanger Theory and Practice, by Taborek, J, Hewitt, G.F
Afgan, N, Mc Graw Hill Book Company, New York (1983), pp.265285
[23] Holman, J.P. Perpindahan Kalor, edisi keenam, Penerbit Erlangga, (1997),
hal.226-227
[24] Janna, S.W, Design of Fluid Thermal System, PWS Publishing Company,
Boston, (1993), pp. 268
[25] Sparrow, E.M and Perez, J.A. Internal shellside heat transfer and pressure
drop characteristic for a shell and tube heat exchanger, Journal of
heat transfer vol. 107, (1985), pp. 345-353
[26] Pekdemir, T, Davies, T.W, Haseler, L.E and Diaper, A.D, Flow distribution
on the shellside of a cylindrical shell and tube heat exchanger,
International Journal of Heat and Fluid Flow, Vol. 14 Issue 1,
March, Published by Elsevier Science Inc, (1993), pp. 76-85
[27] Jegede, F.O, and Polley, G.T, Optimum Heat Exchanger Design, Trans I Chem
E, Vol. 70, Part A March, (1992), pp. 133-141
[28] Sappu, Frans Palobo, Investigasi pengaruh sudut kemiringan baffle terhadap
unjuk kerja thermal dan kerugian tekanan pada alat penukar kalo
jenis shell and tube, Tesis Magister, Jurusan Teknik Mesin
Universitas Gajah Mada, (2000)
[29}Hewitt, G.F, Shires, G.L and Bott, T.R, Process Heat Transfer, CRC Press Inc,
USA, (1994), pp. 272
[30] Yunus A. Cengel, Heat Transfer A Practical Approach, Second Edition,
International Edition, Mc Graw-Hill, Book Company, Inc,
Singapore (2003), pp. 690-694
68
[31] Kreith, F, Prinsip-Prinsip Perpindahan Panas, edisi ketiga, Penerbit Erlangga,
(1997), pp.