Calculation of the lower operating limit of dual-flow plates with different geometrical characteristics

Auteurs-es

  • Gennadiy Taranenko Volodymyr Dahl East Ukrainian National University Lenin str., 26/7, Severodonetsk, Lugansk obl., Ukraine, 93404., Ukraine

DOI :

https://doi.org/10.15587/2313-8416.2015.39196

Mots-clés :

dual-flow plates, column, hole diameter, calculation, equations

Résumé

We consider the calculation of lower limit of the effective work of dual-flow plates with different geometrical characteristics. In the equations is proposed to use the parameter T, that allows improve the accuracy of equations. The equations can be used to improve the methods of calculating the dual-flow plates

Biographie de l'auteur-e

Gennadiy Taranenko, Volodymyr Dahl East Ukrainian National University Lenin str., 26/7, Severodonetsk, Lugansk obl., Ukraine, 93404.

Candidate of engineering sciences, associate professor

Department of Chemical Enterprise Equipment

Références

Zaycev, I. D. (1986). Proizvodstvo sody [Proizvodstvo sody]. Moscow, USSR: Chemistry, 312.

Kuznecov, V. Ya., Shebastyuk, I. M., Bol’shakova, L. N., Konkina, I. N. (2005). Opyt ispol’zovaniya tarel’chatogo absorbera dlia ulavlivaniya benzol’nyh uglevodorodov iz koksovogo gaza [Opyt ispol’zovaniya tarel’chatogo absorbera dlia ulavlivaniya benzol’nyh uglevodorodov iz koksovogo gaza]. Coke and Chemistry, 2, 22–23.

Tarat, E. Ya., Muhlenov, I. P., Tubolkin, A. F. et. al. (1977). Penny rejim i pennye apparaty [Penny rejim i pennye apparaty]. Leningrad, USSR: Chemistry, 303.

Kister, H. Z. (1990). Distillation Operation. New York, NY.: McGraw-Hill Professional, 729.

Albright, L. (2009). Albright’s chemical engineering handbook. Boca Raton, FL.: Taylor & Francis Group, LLC, 1912.

6. Green, D. W., Perry, R. H. (1999). Perry's Chemical Engineers' Handbook, Seventh Edition (Chemical Engineers Handbook). New York, NY.: McGraw-Hill Companies, Inc, 2582.

Taranenko, G. V. (2013). Gidravlicheskie i massoobmennye haracteristiki tarelok proval’nogo tipa s razlichnym diametrom otverstiy [Gidravlicheskie i massoobmennye haracteristiki tarelok proval’nogo tipa s razlichnym diametrom otverstiy]. Lugansk. izd-vo VNU im. V. Dalia, 174.

Tompson, Dg. M. T. (1990). Neustoychivye katastrofy v nauke i tehnike [Neustoychivye katastrofy v nauke i tehnike]. Moscow, USSR: Peace, 312.

Taranenko, G. V. (2014). Issledovanie gidrogazodinamicheskih harakteristik tarelok proval’nogo tipa [Issledovanie gidrogazodinamicheskih harakteristik tarelok proval’nogo tipa] Journal of East Ukrainian National University Dal. Science magazine, 9, 143–146.

Rozen, A. M., Martiushin, E. I., Olevsky, V. M. et. al. (1980). Masshtabny perehod v himicheskoy tehnologii [Masshtabny perehod v himicheskoy tehnologii]. Moscow, USSR: Chemistry, 320.

Taranenko, G. V. (2011). Issledovanie gidravlicheskogo soprotivleniya tarelok provalnogo tipa v kolonah razlichnogo diametra [Issledovanie gidravlicheskogo soprotivleniya tarelok provalnogo tipa v kolonah razlichnogo diametra] Journal of Sumy State University. Avg. Engineering, 1, 45–50.

Kasatkin, A. G., Dytnersky, Ju. I., Umarov, S. U. (1958). K raschetu kolonn c proval’nymi tarelrami [K raschetu kolonn c proval’nymi tarelrami] Chemical Industry, 3, 38–45.

Ruzinov, L. P. (1972). Statisticheskie metody optimizacii himicheskich processov [Statisticheskie metody optimizacii himicheskich processov]. Moscow, USSR: Chemistry, 200.

Téléchargements

Publié-e

2015-03-24

Numéro

Rubrique

Technical Sciences