How to utilize the kinetic energy of pulsed detonation products?

Zel’dovich Ya, 1940, On the energy use of detonative combustion, J. Tech. Phys., 10, 1453 Roy, 2004, Pulse detonation propulsion: challenges, current status, and future perspective, Progr. Energy Combust. Sci., 30, 545, 10.1016/j.pecs.2004.05.001 R.M. Poorman, H.B. Sargent, H. Lamprey Method and apparatus utilizing detonation waves for spraying and other purposes. US Patent US 2714563 issued 02.08.1955. A.I. Zverev, S.Yu. Sharivker, E.A. Astakhov, Detonation-assisted powder coating. (Detonatsionnoe nanesenie pokrytii), Leningrad, Sudostroenie Publ., 1979. S.M. Frolov, V.A. Smetanyuk, S.A. Nabatnikov, A.V. Moiseev, V.G. Andrienko, V.G. Piletskii Method of super-fine fragmentation of liquid fuel and device for its realization. Patent of Russian Federation no. 2644422 issued 12.02.2018. V.A. Smetanyuk, S.M. Frolov, Shock-wave assisted fragmentation of coal-in-water emulsion. in: Proc. Vth Intern. Minsk Colloquium on Phys. Shock Waves, Combustion and Detonation, November 13-16, 2017, Minsk, Lyikov Inst. Heat Mass Transfer, National Acad. Sci. Republic of Belarus, pp. 166-167. S.M. Frolov, K.A. Avdeev, F.S. Frolov, Yu.L. Streletskii, Method of grinding and melting of the snow-ice mass and the device for its implementation, PCT Patent application PCT/RU 2013/001149 dated 23.12.2013. S.M. Frolov, F.S. Frolov, V.A. Smetanyuk, Methods of detonation stamping and device for its realization, PCT patent application PCT/RU2014/000780 dated 16.10.2014. S.C. Gülen, Pressure gain combustion advantage in land-based electric power generation, in: Proc. 1st Global Power and Propulsion Forum, 2017, Zurich, Switzerland, GPPF-2017-0006. R.L. Scragg, Detonation cycle gas turbine engine system having intermittent fuel and air delivery, US Patent US6000214 issued 07.08.1996. F. Schauer, R. Bradley, J. Hoke, Interaction of a pulsed detonation engine with a turbine, AIAA Paper (2003–0891), 2003. S. Ohyagi, H. Toh, K. Chiba, S. Yamawaki, H. Kobayashi, K. Takahashi, M. Murayama, Pulse detonation engine system for driving turbine, US Patent US 7367194 B2 issued 06.05.2008. T. Sakurai, T. Obara, S. Ohyagi, M. Murayama Experimental study of pulse detonation turbine engine toward power generator, in: Proc. of the 20th International Colloquium on the Dynamics of Explosion and Reactive Systems, (2005). Rasheed, 2009, Pressure measurements and attenuation in a hybrid multi-tube pulse detonation system, J. Propul. Power, 25, 148, 10.2514/1.31893 Voitsekhovskii, 1959, Stationary detonation, USSR Doklady, 129, 1254 F.K. Lu, E.M. Braun, L. Massa, D.R. Wilson, Rotating detonation wave propulsion: experimental challenges, modeling and engine concepts, AIAA Paper, 2011–8043, 2011. Frolov, 2016, Thrust characteristics of a pulse detonation engine operating on a liquid hydrocarbon fuel, Rus. J. Phys. Chem. B, 10, 291, 10.1134/S1990793116020184 Basevich, 2006, Overall kinetic mechanisms for modeling multistage self-ignition of hydrocarbons in reactive flows, Rus. J Chem. Phys., 25, 54 Ivanov, 2011, Numerical simulation of the operation process and thrust performance of an air-breathing pulse detonation engine in supersonic flight conditions, Rus. J. Phys. Chem. B, 5, 597, 10.1134/S1990793111040075 Zel'dovich Ya, 1987, Detonation propagation in a rough tube taking account of deceleration and heat transfer, Combust., Explos. Shock Waves, 23, 342, 10.1007/BF00748797