Monte Carlo Simulation Model to Design Heat Exchangers

For further practice of Monte Carlo Simulation Model, you can review below papers which are applying the Monte Carlo Simulation Model to design Heat Exchangers:

-Abdelaziz, O., & Radermac, R. (2010). Modelling heat exchangers under consideration of manufacturing tolerances and uncertain flow distribution. International Journal of Refrigeration, 33 (2010), 815 – 828.

-Li, Min., & Lai, Alvin. C.K. (2012). Parameter Estimation of In-situ Thermal Response Tests for Borehole Ground Heat Exchangers. International Journal of Heat and Mass Transfer, 55 (2012), 2615 – 2624.

-Zhihua, Chen., & Dechao, Chen. (2011). Research on Stochastic Characteristic of Ground Heat Exchanger of Ground Source Heat Pumps with Monte-Carlo Method. IEEE,

978-1-4577-0290-7/11.

-Gupta, Ashutosh., & Mukherjee, Bhaswati., & Upadhyay, S. K. (2008). Weibull Extension Model: A Bayes Study Using Markov Chain Monte Carlo Simulation. Reliability Engineering and System Safety, 93 (2008), 1434–1443.

-Liu, Hongwei., et al. (2007). Monte Carlo Simulations of Gas Flow and Heat Transfer in Vacuum Packaged MEMS Devices. Applied Thermal Engineering, 27 (2007), 323–329

-Kovtanyuk, Andrey. E., & Botkin, Nikolai. D., & Hoffmann, Karl-Heinz. (2012). Numerical Simulations of a Coupled Radiative–Conductive Heat Transfer Model Using a Modified Monte Carlo Method. International Journal of Heat and Mass Transfer, 55 (2012), 649 – 654.

- BADAR, MA., & ZUBAIR, SM., & SHEIKH, AK. (2003). UNCERTAINTY ANALYSIS OF HEAT-EXCHANGER THERMAL DESIGNS USING THE MONTE-CARLO SIMULATION TECHNIQUE. PERGAMON-ELSEVIER SCIENCE LTD, ENERGY, 18, 859-866.

-Ayunov, D. E., & Duchkov, A. D. (2008).  Monte-Carlo Simulation for Estimating Topographic Disturbance to Heat Flow Data. Russian Geology and Geophysics,  49 (2008),  291–296