Analisa Perfomansi Alat Penukar Kalor Tiga Saluran Satu Laluan Dengan Aliran yang Terbagi Dalam Konfigurasi Aliran Berlawanan Arah dan Searah
DAFTAR PUSTAKA
(1) Basal B., Unal A., 2013. Numerical evaluation of triple concentric-tube latent
heat thermal energy storage. Journal Solar Energy, Vol. 92, hal. 196–
205
(2) Batmaz E., Sndeep., 2003. Overall heat transfer coefficients and axial
temperature distribution of fluids in a triple tube heat exchanger.
Journal Food Science, Vol. 1, hal. 1-34
(3) C.L. Ko dan G.L Wedenkind.1995. Analysis for the optimal performance of
three channel split flow heat exchanger. J.Heat and Mass Transfer Vol.
29, hal 691-705
(4) Cengel, Yunus.A. 2003. Heat Transfer: A Practical Approach, 2nd ed. New
York : McGraw-Hill
(5) Garcia-valladares, O. 2004. Numerical simulation of triple concentric pipe
heat exchangers. International Journal of Thermal sciences. Vol. 43,
hal. 979-991.
(6) Ghiwala, Thejas.M dan V.K. Matalawa. 2014. Sizing of triple Concentric
Pipe Heat Exchanger. IJEDR. Vol. 2. Issue 2. hal 1683 – 1692
(7) Holman, J. P. 1997. Perpindahan Kalor, edisi ke-2. Jakarta : Erlangga
(8) Joshua, Folaranmi. 2009. Design and Construction of a Concentric Tube Heat
Exchanger, AUJ.T. 13(2): 128 – 133
(9) Incropera, Franks. P dan David P dewitt. 1996. Intoduction to Heat Transfer.
3rd Edition. New York : John Wiley & Sons.
(10) Kays, W.M dan A.L. London. 1964. Compact Heat Exchanger, 2nd ed. New
York : Mcgraw Hill
(11) Kreith, Frank. 1877. Principles Of Heat Transfer, 4th ed. New york : Harper
and Row
(12) Kuppan,T. 2000. Heat Exchanger Design Handbook. New York : Marcel
Dekker.Inc
xvi
Universitas Sumatera Utara
(13) Mehrabian, M.A, Mansouri S.H, and Sheikhzadeh G.A. 2002. The overall
heat transfer characteristics of a double pipe heat exchanger:
comparison of experimental data with predictions of standard
correlations. IJE Transaction B : Applications, Vol. 15 No. 4, hal. 395–
406
(14) Mustaza Ma’a, Ary Bachtiar Krishna Putra. 2012. Karakteristik Perpindahan
Panas dan Pressure Drop pada Alat Penukar Kalor tipe Pipa Ganda
dengan aliran searah. Proceding Applied Engineering Seminar. hal 1822
(15)
. 2013. Karakteristik Perpindahan Panas pada Double Pipe Heat
Exchanger perbandingan aliran parallel dan counter flow. Jurnal
Teknik Elektro dan Komputer, Vol.I, No.2, hal. 161-168
(16) Hidayat, Terang Ukur. 2000. Verifikasi Secara Eksperimental Penukar
Panas Tiga Saluran dengan Aliran yang Terbagi. Tesis Master Teknik
Mesin ITB Bandung
(17) Holman, J. P. 1997. Perpindahan Kalor, edisi ke-2. Jakarta : Erlangga
(18) Pitts, Donald. 2008. Perpindahan Kalor, edisi ke-2. Erlangga : 2108
(19) Sitompul, Tunggul. 1993. Alat Penukar Kalor. Jakarta :Erlangga
(20) Quadir G. A., Jarallah S., Ahmed N. J. S., dan Badruddin I. A. 2013.
Experimental investigation of the performance of a triple concentric
pipe heat exchanger. International Journal of Heat and Mass Transfer,
Vol. 62, hal. 562–566.
(21) Rajsekar. K; Palanisamy.S. 2008. Design and Analysis of Triple Tube Heat
Exchangers with Fins, IOSR Journal of Mechanical and Civil
Engineering. Hal. 1-5.
(22) Unal, Achmad. 1998. Theoretical analysis of triple concentric-tube heat
exchanger Part-1 Mathematical modelling. Journal International
Communication Heat Mass Transfer, vol. 25, hal. 949-958
(23)
. 2001. Theoretical analysis of triple concentric-tube heat
exchanger Part-2 case studies, Journal International Communication
Heat Mass Transfer, Vol. 28, hal. 243-256
xvii
Universitas Sumatera Utara
(24)
. 2003. Effectiveness-NTU relation for triple concentric-tube
heat exchangers. Journa International Communication Heat Mass
Transfer, Vol. 30, hal. 261-272
(25) Zuritz C, A. 1990. On the design of triple concentric-tube heat exchangers.
Journal of Food Process Engineering, Vol. 12, hal. 113-130
xviii
Universitas Sumatera Utara
(1) Basal B., Unal A., 2013. Numerical evaluation of triple concentric-tube latent
heat thermal energy storage. Journal Solar Energy, Vol. 92, hal. 196–
205
(2) Batmaz E., Sndeep., 2003. Overall heat transfer coefficients and axial
temperature distribution of fluids in a triple tube heat exchanger.
Journal Food Science, Vol. 1, hal. 1-34
(3) C.L. Ko dan G.L Wedenkind.1995. Analysis for the optimal performance of
three channel split flow heat exchanger. J.Heat and Mass Transfer Vol.
29, hal 691-705
(4) Cengel, Yunus.A. 2003. Heat Transfer: A Practical Approach, 2nd ed. New
York : McGraw-Hill
(5) Garcia-valladares, O. 2004. Numerical simulation of triple concentric pipe
heat exchangers. International Journal of Thermal sciences. Vol. 43,
hal. 979-991.
(6) Ghiwala, Thejas.M dan V.K. Matalawa. 2014. Sizing of triple Concentric
Pipe Heat Exchanger. IJEDR. Vol. 2. Issue 2. hal 1683 – 1692
(7) Holman, J. P. 1997. Perpindahan Kalor, edisi ke-2. Jakarta : Erlangga
(8) Joshua, Folaranmi. 2009. Design and Construction of a Concentric Tube Heat
Exchanger, AUJ.T. 13(2): 128 – 133
(9) Incropera, Franks. P dan David P dewitt. 1996. Intoduction to Heat Transfer.
3rd Edition. New York : John Wiley & Sons.
(10) Kays, W.M dan A.L. London. 1964. Compact Heat Exchanger, 2nd ed. New
York : Mcgraw Hill
(11) Kreith, Frank. 1877. Principles Of Heat Transfer, 4th ed. New york : Harper
and Row
(12) Kuppan,T. 2000. Heat Exchanger Design Handbook. New York : Marcel
Dekker.Inc
xvi
Universitas Sumatera Utara
(13) Mehrabian, M.A, Mansouri S.H, and Sheikhzadeh G.A. 2002. The overall
heat transfer characteristics of a double pipe heat exchanger:
comparison of experimental data with predictions of standard
correlations. IJE Transaction B : Applications, Vol. 15 No. 4, hal. 395–
406
(14) Mustaza Ma’a, Ary Bachtiar Krishna Putra. 2012. Karakteristik Perpindahan
Panas dan Pressure Drop pada Alat Penukar Kalor tipe Pipa Ganda
dengan aliran searah. Proceding Applied Engineering Seminar. hal 1822
(15)
. 2013. Karakteristik Perpindahan Panas pada Double Pipe Heat
Exchanger perbandingan aliran parallel dan counter flow. Jurnal
Teknik Elektro dan Komputer, Vol.I, No.2, hal. 161-168
(16) Hidayat, Terang Ukur. 2000. Verifikasi Secara Eksperimental Penukar
Panas Tiga Saluran dengan Aliran yang Terbagi. Tesis Master Teknik
Mesin ITB Bandung
(17) Holman, J. P. 1997. Perpindahan Kalor, edisi ke-2. Jakarta : Erlangga
(18) Pitts, Donald. 2008. Perpindahan Kalor, edisi ke-2. Erlangga : 2108
(19) Sitompul, Tunggul. 1993. Alat Penukar Kalor. Jakarta :Erlangga
(20) Quadir G. A., Jarallah S., Ahmed N. J. S., dan Badruddin I. A. 2013.
Experimental investigation of the performance of a triple concentric
pipe heat exchanger. International Journal of Heat and Mass Transfer,
Vol. 62, hal. 562–566.
(21) Rajsekar. K; Palanisamy.S. 2008. Design and Analysis of Triple Tube Heat
Exchangers with Fins, IOSR Journal of Mechanical and Civil
Engineering. Hal. 1-5.
(22) Unal, Achmad. 1998. Theoretical analysis of triple concentric-tube heat
exchanger Part-1 Mathematical modelling. Journal International
Communication Heat Mass Transfer, vol. 25, hal. 949-958
(23)
. 2001. Theoretical analysis of triple concentric-tube heat
exchanger Part-2 case studies, Journal International Communication
Heat Mass Transfer, Vol. 28, hal. 243-256
xvii
Universitas Sumatera Utara
(24)
. 2003. Effectiveness-NTU relation for triple concentric-tube
heat exchangers. Journa International Communication Heat Mass
Transfer, Vol. 30, hal. 261-272
(25) Zuritz C, A. 1990. On the design of triple concentric-tube heat exchangers.
Journal of Food Process Engineering, Vol. 12, hal. 113-130
xviii
Universitas Sumatera Utara