References

A NEW APPROACH FOR THE COLUMN APPARATUSES MODELLING IN CHEMICAL ENGINEERING


[1] Chr. Boyadjiev, Theoretical Chemical Engineering: Modelling and Simulation, Springer-Verlag, Berlin, Heidelberg, 2010, pp. 594.

[2] Chr. Boyadjiev, Modelling of column apparatuses, Transactions of Academenergo (3) (2009), 7-22.

[3] M. Doichinova and Chr. Boyadjiev, On the column apparatuses modelling, International Journal of Heat and Mass Transfer 55 (2012), 6705-6715.

[4] Chr. Boyadjiev, Diffusion models and scale-up, International Journal of Heat and Mass Transfer 49 (2006), 796-799.

[5] Chr. Boyadjiev, Mechanism of gas absorption with two-phase absorbents, International Journal of Heat and Mass Transfer 54 (2011), 3004-3008.

[6] Chr. Boyadjiev, On the modelling of an airlift reactor, International Journal of Heat and Mass Transfer 49 (2006), 2053-2057.

[7] Chr. Boyadjiev, Diffusion model of an airlift three-phase catalytic reactor and scale-up, Theoretical Foundations of Chemical Engineering 40 (2006), 673-678.

[8] Chr. Boyadjiev and J. Merchuk, On the modelling of an airlift photobioreactor, Journal of Engineering Thermophysics 17(2) (2008), 134-141.

[9] K. Panayotova, M. Doichinova and Chr. Boyadjiev, On the scale effect and scale-up in the column apparatuses 1; Influence of the velocity distribution, International Journal of Heat and Mass Transfer 52 (2009), 543-547.

[10] K. Panayotova, M. Doichinova and Chr. Boyadjiev, On the scale effect and scale-up in the column apparatuses 2; Scale effect modelling, International Journal of Heat and Mass Transfer 52 (2009), 2358-2361.

[11] K. Panayotova, M. Doichinova and Chr. Boyadjiev, On the scale effect and scale-up in the column apparatuses 3; Circulation zones, International Journal of Heat and Mass Transfer 53 (2010), 2128-2132.