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References
Anderson D, Tannehill J, Plecher R (1990). Computational fluid mechanics and heat transfer. International standard book. Third edition pp. 13-37. |
|
Chauhan V, Srivastava PK (2019). Computational techniques based on the Runge-Kutta method of various order and type for solving differential equations. International Journal of Mathematical Engineering and Management Sciences 4(2):375-386. |
|
Chen B, Zhingang L, Qunsheng L, Chengna D (2012). Pressure drop and mass transfer study in structured catalytic packings. Separation and purification technology 98:78-87. |
|
Ciarlet P (1999). Introduction to matrix numerical analysis and optimization. International standard book. First edition pp. 233-257. |
|
Dutkowski K (2008). Experimental investigations of Poiseuille number laminar flow of water and air in minichannels. International Journal of Heat and Mass Transfer 51(25-26):5983-5990. |
|
Gong MQ, Wu JF, Luo EG (2004). Performances of the mixed gases Joule Thomson refrigeration cycles for cooling fixed temperature heat loads. Cryogenics 44(12):847-857. |
|
Mishra A, Govindarajan SK (2020). Methane Gas Production from Coal Bed Methane Reservoir. Journal of Oil Gas and Coal Engineering 5(1):39-46. |
|
Roachand PD, Bell KJ (1989). Analysis of Pressure Drop and Heat Transfer Data from the Reversing Flow Test Facility Calculation. International standard book. First edition pp. 233-257 |
|
Saha SK, Celata GP (2016). Heat Transfer and Pressure Drop in Flow Boiling in Microchannels. International standard book. First edition pp. 1-55. |
|
Thome JR, Cheng L, Ribatski G (2008). An updated general flow boiling heat transfer model based on flow patterns. International Journal of Refrigeration 51(1-2):7-20. |
|
Wang X, Weile SD (2011). Implicit Runge-Kutta methods for the discretization of time domain integral equations. IEEE transactions on antennas and propagation 59(12):4651-4663. |
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