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