Shell and Tube Heat Exchanger Design: Utilization of Wasted Energy in Air Conditioning Systems
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M. Sahrul, I. M. Mahbubul, R. Saidur, S. S. Khaleduzzaman, M. F. Sabri, and M. M. Rahman. “Effectiveness study of a shell and tube heat exchanger operated with nanofluids at different mass flow rates”. Numerical Heat Transfer, Part A: Application: An International Journal of Computation and Methodology, vol. 66 (7), pp.699-713, 2014.
A. C. Caputo, P. M. Pelagagge, and P. Salini. “Heat exchanger design based on economic optimisation”. Applied Thermal Engineering, vol. 28, pp.1151-1159, 2008.
D. Q. Kern. “Process heat transfer”. McGraw-Hill, 1950.
W. M. Rosenhow, and P. J. Harnett. “Handbook of heat transfer”. McGraw-Hill, 1973.
R. K. Shah, and K. J. Bell. “The CRC handbook of thermal engineering”. CRC Press. 2000.
G. F. Hewitt (Ed.). “Heat exchanger design handbook”. New York: Begell House, 1998.
Y. A. Kara, and O. Guraras. “A computer program for designing of shell and tube heat exchangers”. Applied Thermal Engineering, vol 24, pp.1797-1805, 2004.
A. B. D. Nandiyanto, R. Ragadhita, and T. Kurniawan. “Shell and tube heat exchanger design for titanium dioxide particle production process”. Journal of Engineering Science and Technology, vol. 17, no. 5, pp. 3224-3233, 2022.
A. B. D. Nandiyanto, S. R. Putri, R. Ragadhita, and T. Kurniawan. “Design of heat exchanger for the production of carbon particles”. Journal of Engineering Science and Technology, vol. 17, no. 4, pp. 2788-2798, 2022.
N. T. D. Hidayah and A. B. D. Nandiyanto. “Shell and tube heat exchanger design for nano zeolit production process”. International Journal of Research and Applied Technology, vol. 1, no. 2, pp. 306-317, 2021.
M. P. Aprilia, A. B. D. Nandiyanto, T. Kurniawan, M. Fiandini dan R. Ragadhita. “Rancangan heat exchanger jenis shell and tube untuk produksi nanopartikel Fe3O4 skala industri menggunakan pemodelan matematis”. Jurnal Fraction, vol. 2, no. 2, pp. 46-52, 2022.
I. Milcheva, F. Hiberle, and D. Bruggemann. “Modeling and simulation of a shell-and-tube heat exhanger for organic rankine cycle systems with double-segmental baffels by adapting the Bell-Delaware method”. Applied Thermal Engineering, vol. 126, pp. 507-517, 2017.
A. Erdogan, C. O. Colpan, and D. M. Cakici. “Thermal design and analysis of a shell and tube heat exchanger integrating a geothermal based organic rankine cycle and parabolic trought solar collectors”. Renewable Energy, vol. 109, pp. 372-391, 2017.
D. Luo, Z. Wu, Y. Yan, D. Ji, Z. Cheng, R. Wang, Y. Li, and X. Yang. “Optimal design of a heat exchanger for automotive thermoelectric generator system applied to a passenger car”. Applied Thermal Engineering, vol. 227, 2023.
A. B. D. Nandiyanto, R. Ragadhita, and T. Kurniawan. “Design of laboratory scale water bath heat exchanger with shell and tube type”. Journal of Engineering Science and Technology, Special Issue on AASSEEEC2021, pp.49-56, 2021.
B. Masoumpour, M. Ataeizadeh, H. Hajabdollahi, and M. S. Dehaj. “Performance evaluation of a shell and tube heat exchanger with recovery of mass flow rate”. Journal of the Taiwan Institute of Chemical Engineers, vol. 123, pp. 153-165, 2021.
Y. A. Cengel. “Introduction to thermodynamics and heat transfer”. United States of America: McGraw-Hill, 1997.
K. Frank. “Prinsip-prinsip perpindahan panas”. Alih bahasa A. Prijono, Edisi Ketiga, Jakarta:Erlangga, 1986.
DOI: http://dx.doi.org/10.32497/eksergi.v19i2.4461
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