Abstract
This paper presents a life prediction method based on several accelerated life test data for brazed plate heat exchanger. For this purpose, accelerated life tests were performed with pressure cycle and fluid temperature as accelerating stresses. Statistical analyses of the two test data sets and their combination were conducted. As a result, the shape parameter of Weibull distribution, the accelerating index of pressure cycle, the activation energy, and the life cycles under normal use conditions for the brazed plate heat exchanger were obtained.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
G. S. Wasserman, Reliability verification, testing and analysis in engineering design, Marcel Dekker, Inc., New York (2003).
G. B. Yang, Life cycle reliability engineering, John Wiley & Sons, Inc., New Jersey (2007).
W. Nelson, Accelerated testing: statistical models, test plans, and data analysis, John Wiley & Sons, New Jersey (1990).
E. A. Elsayed, Reliability engineering, Wiley, New Jersey (2012).
W. Q. Meeker and L. A. Escobar, Statistical methods for reliability data, Wiley (1998).
W. Nelson, A bibliography of accelerated test plans part II–references, IEEE T. Reliab., 54 (3) (2005) 370–373.
L. A. Escobar and W. Q. Meeker, A review of accelerated test models, Stat. Sci., 21 (4) (2006) 552–577.
J. I. Park, J. W. Park, M. Jung, Y. H. Huh and S. J. Bae, Cycle-life test time reduction in secondary rechargeable batteries by combining different types of acceleration, Journal of the Society of Korean Industrial and Systems Engineering, 31 (4) (2008) 153–161.
G. Han and Y. Fu, Tri-stress accelerated life test for cylinders, Procedia Eng., 16 (2011) 554–563.
S. J. Park, S. D. Park, K. S. Kim and J. H. Cho, Reliability evaluation for the pump assembly using an accelerated test, Int. J. Pres. Ves. Pip., 83 (4) (2006) 283–286.
W. G. Shin and S. H. Lee, A development of accelerated life test method for blower motor for automobile using inverse power law model, Int. J. Mod. Phys. B, 22 (9–11) (2008) 1074–1080.
K. Thulukkanam, Heat exchanger design handbook, CRC Press (2013).
R. Bogaert and A. Bolcs, Global performance of a prototype brazed plate heat exchanger in a large Reynolds number range, Exp. Heat Transfer, 8 (4) (1995) 293–311.
J. Stasiek, M. W. Collins, M. Ciofalo and P. E. Chew, Investigation of flow and heat transfer in corrugated passages — I. experimental results, Int. J. Heat Mass Tran., 39 (1) (1996) 149–164.
Z. H. Ayub, Plate heat exchanger literature survey and new heat transfer and pressure drop correlations for refrigerant evaporators, Heat Transfer Eng., 24 (5) (2003) 3–16.
E. Mencke, J. Larsson, Y. Persson, A. Olsson, A. Dahlquist and P. Eriksson, Brazed plate heat exchangers and their applications, ASHRAE Trans., 111 (2005) 813–821.
D. H. Han, K. J. Lee and Y. H. Kim, Experiments on the characteristics of evaporation of R410A in brazed plate heat exchangers with different geometric configurations, Appl. Therm. Eng., 23 (10) (2003) 1209–1225.
G. A. Longo, Hydrocarbon refrigerant vaporization inside a brazed plate heat exchanger, J. Heat Transf., 134 (10) (2012) 101801-1-10.
SAE J1597, Laboratory testing of vehicle and industrial heat exchangers for pressure-cycle durability (2008).
SAE J1542, Laboratory testing of vehicle and industrial heat exchangers for thermal cycle durability (2008).
M. S. Chang, J. H. Shin, Y. I. Kwon, B. O. Choi, S. C. Lee and B. S. Kang, Reliability estimation of pneumatic cylinders using performance degradation data, Int. J. Precis. Eng. Man., 14 (12) (2013) 2081–2086.
R. B. Abernethy, The new Weibull handbook, Abernethy, R. B. (2004).
B. Bertsche, Reliability in automotive and mechanical engineering: determination of component and system reliability, Springer (2008).
Accelerated life testing reference, Reliasoft publishing (2007).
Author information
Authors and Affiliations
Corresponding author
Additional information
Recommended by Associate Editor Seong Beom Lee
Mu-Seong Chang received his Ph.D. degree in industrial and systems engineering from Changwon National University in 2007. He is a senior researcher at the Reliability Assessment Center of the Korea Institute of Machinery & Materials, Korea. His research interests include reliability engineering, accelerated life testing methodology, and applied statistics.
Tae-Kook Park received his M.S. degree in mechanical engineering from Korea Maritime University in 1999. He is a senior researcher at the Reliability Assessment Center of the Korea Institute of Machinery & Materials, Korea. His research interests are heat exchanger and reliability research about machinery components.
Baek-Ju Sung received his Ph.D. degree in electrical engineering from Chungnam National University in 2006. He received his M.S. and B.S. degrees in electrical engineering for Busan National University in 1992 and 1990, respectively. His research interests are electrical actuator and reliability research about machinery components.
Byung-Oh Choi received his B.S. degree in mechanical engineering from Hanyang University, Korea, in 1978 and his M.S. degree from South Dakota State University in 1985. He received his Ph.D. degree from the University of Missouri-Rolla, USA, in 1991. He is currently the director of the Reliability Assessment Center at the Korea Institute of Machinery and Materials, where he is a distinguished research fellow.
Rights and permissions
About this article
Cite this article
Chang, MS., Park, TK., Sung, BJ. et al. Life prediction of brazed plate heat exchanger based on several accelerated life test data. J Mech Sci Technol 29, 2341–2348 (2015). https://doi.org/10.1007/s12206-015-0526-y
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12206-015-0526-y