1. Isaev, S.I., Kozhinov, I.A., Kofanov, V.I., Leont’ev, A.I., Mironov, B.M., Nikitin, V.M., Petrazhitskii, G.B., Khvostov, V.I., Chukaev, A.G., Shishov, E.V., and Shkola, E.V., Teoriya teplomassoobmena (Theory of Heat and Mass Transfer), Publ. House of Bauman Moscow Technol. Inst., 2018.

2. Terekhov, V., Kalinina, S., and Mshvidobadze, Yu., Heat transfer coefficient and aerodynamic resistance on a surface with a single dimple, Enhanced Heat Transfer, 1997, vol. 4, pp. 131–145.

3. Burgess, N.K. and Ligrani P.M., Effects of dimple depth on channel Nusselt numbers and friction factors, J. Heat Transfer, 2005, vol. 127, pp. 839–847.

4. Rao, Y., Feng, Y., Li, B., and Weigand, B., Experimental and numerical study of heat transfer and flow friction in channels with dimples of different shapes, J. Heat Transfer, 2015, vol. 137, pp. 031901-1–031901-10. https://doi.org/10.1115/1.4029036

5. Sapozhnikov, S.Z., Mityakov, V.Yu., and Mityakov, A.V., Gradientnye datchiki tepolovogo potoka (Gradient Transducers of Heat Fluxes), Publ. House of St. Petersburg Polytechnic Univ., 2003.