IMPROVING ITS EFFICIENCY BY CHANGING SHELL TUBE PARAMETERS
Abstract
To solve such an optimization problem, the Taguchi method is used in the present work to screen experiments and determine the critical critical parameters that affect the performance of shell-and-tube type heat exchanger. Prefix parameters (tube diameter, mass flow rate, and step length) are used as input parameters, and the output parameter is the maximum temperature difference of the shell and tube heat exchanger. Nine different models are created in Solid Works 2012 and CFX analysis is performed in ANSYS 12.0. Minitab 16 software is used for Taguchi analysis. The results of the Taguchi analysis show which combination of design parameters gives the minimum outlet water temperature. The parameter that most affects the water temperature is the pipe diameter, pitch length and mass flow rate determined by Taguchi analysis.
Downloads
References
P. Wynblatt, N.A. Gjostein, Supported metal crystallites, Prog. Solid State Chem. 9 (1975) 21.
P. Harris, Growth and structure of supported metal catalyst particles, Int. Mater. Rev. 40 (3) (1995) 97–115.
D. Kistamurthy, Fundamental Understanding of Cobalt Fischer-Tropsch Synthesis Catalyst Deactivation, PhD Thesis, Eindhoven University of Technology, 2015.
M.Kleys, M.E.Dri, E.van Stin, P.J.van Berge, S.Booyens, R.Krous, P.van Xelden, J.Labuschagne, D.J. Mudli, A.M. Soib, jarayon sharoitlarining ta'siri alumina qo'llab-quvvatlanadigan kobalt Fisher-Tropsch katalizatorining sinterlanish harakati in situ magnitometr, ACS Catal bilan o'rganildi. 5 (2) (2015) .
Abdullaev, B. M., & Sayfullaev, T. K. (2023). ANALYSIS OF THE CAUSES OF ACCIDENTS IN GAS PIPELINES TRANSPORT, NATIONAL ECONOMY AND MAIN PIPELINES. JOURNAL OF MULTIDISCIPLINARY BULLETIN, 6(4), 123-126.
Karshiev, M. T., Kh, S. T., & Abdullaev, B. M. (2023). PURIFICATION OF NATURAL GAS FROM CO2 BY ADSORPTION METHOD. JOURNAL OF MULTIDISCIPLINARY BULLETIN, 6(5), 62-76.
Abdullaev, B. M., & Sayfullaev, T. K. (2024). COBALT FISCHER–TROPSCH CATALYST REGENERATION. JOURNAL OF MULTIDISCIPLINARY BULLETIN, 7(1), 105-113.
Махсумов Абдулхамид Гафурович, Хайитов Жонибек Курбанович СИНТЕЗЫ, БИОЛОГИЧЕСКАЯ АКТИВНОСТЬ БИС-АРОМАТИЧЕСКИХ ПРОИЗВОДНЫХ МОЧЕВИНЫ // Universum: технические науки. 2022. №1-3 (94). URL: https://cyberleninka.ru/article/n/sintezy-biologicheskaya-aktivnost-bis-aromaticheskih-proizvodnyh-mocheviny (дата обращения: 28.02.2024).
A.G.Mahsumov, J.Q.Xaitov, & Х.И.Неъматов. (2022). YANGI N2N3-GEKSAMETILIN BIS-[(4-AMINO-AZO-BENZOL)-MOCHEVINANI SINTEZ QILIB OLISH VA XOSSALARINI O‘RGANISH. Journal of Integrated Education and Research, 1(5), 376–383. Retrieved from https://ojs.rmasav.com/index.php/ojs/article/view/515
.Хаитов Жонибек Курбанович, Махсумов Абдухамид Гафурович, Абсалямова Гулноза Маматкуловна, Исмаилов Бобурбек Махмуджанович СИНТЕЗ N,N1-ГЕКСАМЕТИЛЕН-БИС-[(1,11-АМИНОНАФТАЛИН)-МОЧЕВИНА] И ЕГО СВОЙСТВА // Universum: химия и биология. 2023. №5-3 (107). URL: https://cyberleninka.ru/article/n/sintez-n-n1-geksametilen-bis-1-11-aminonaftalin-mochevina-i-ego-svoystva (дата обращения: 28.02.2024).
