1. Kalinin, E.K., Dreitser, G.A., Kopp, I.Z., and Myakochin, A.S., Effektivnye poverkhnosti teploobmena (Effective Heat Transfer Surface), Moscow: Energoatomizdat, 1998.

2. Teplogidravlicheskaya effektivnost’ perspektivnykh sposobov intensifikatsii teploobmena v kanalakh teploobmennogo oborudovaniya. Intensifikatsiya teploobmena (Thermal-Hydraulic Efficiency of the Advanced Methods of Intensification of Heat Transfer in Channels of Heat Transfer Equipment), Gortyshov, Yu.F., Ed., Kazan: Center for Innovative Technologies, 2009.

3. Dzyubenko, B.V., Kuzma-Kichta, Yu.A., Leont’ev, A.I., Fedik, I.I., and Kholpanov, L.P., Intensifikatsiya teploi massoobmena na makro-, mikroi nanomasshtabakh (Intensification of Heat and Mass Transfer at the Macro-, Micro-, and Nanoscale), Moscow: “TsNIIATOMINFORM,” 2008.

4. Bystrov, Yu.A., Isaev, S.A., Kudryavtsev, N.A., and Leont’ev, A.I., Chislennoe modelirovanie vikhrevoi intensifikatsii teploobmena v paketakh trub (Numerical Simulation of the Vortex Intensification of Heat Transfer in Packets of Tubes), St. Petersburg: Sudostroenie, 2005.

5. Belov, I.A., Isaev, S.A., and Korobkov, V.A., Zadachi i metody rascheta otryvnykh techenii neszhimaemoi zhidkosti (Problems and Methods of Calculation of Separated Flows of Incompressible Fluids), Leningrad: Sudostroenie, 1989.