The results of experimental investigations of piston gas engine with a self-acting gas distribution system are reported. Its simple design, high efficiency, and wide operation range make it usable in explosion- and firerisky mining operations, chemical and petrochemical industry, power-saving systems, emergency rescue operations of the Ministry of Emergency Situations, development of ecologically clean automobile engines that utilize the energy of inert precompressed or liquefied gases, external combustion hydrogen engines, etc.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
V. L. Zinevich and L. A. Geshlin, Piston and Gear Pneumatic Motors for Mining Equipment [in Russian], Nedra, Moscow (1982), p. 199.
A. I. Prilutskii, “Use of piston expanders in plants utilizing energy of compressed natural gas,” Khim. Neftegaz. Mashinostr., No. 3, 26–30 (2008).
A. N. Turenko, A. I. Pyatak, and I. N. Kudryavtsev, “Ecologically clean cryogenic transport: present state, problems,” Vestn. KhGADTU: Collec. Sc. Papers, No. 12–13, 42–47 (2000).
I. K. Prilutskii, “Development, investigation, and creation of compressors and expanders for cryogenic engineering,” Doctor’s Dissertation [in Russian], Leningrad (1991).
V. S. Kalekin, “Working processes of piston compressor-expander units having self-acting valves,” Doctor’s Dissertation [in Russian], Omsk (1999).
A. D. Vanyashov, V. S. Kalekin, and A. N. Kabakov, “Development and investigation of expander-compressor units built on unitized compressor bases,” Omsk. Nauchn. Vestn., No. 6, 47–52 (1999).
A. D. Vanyashov, V. S. Kalekin, and A. N. Kabakov, “Expander-compressor unit having self-acting valves,” Kriog. Kholod. Oborud.: Sb. Nauch. Tr., Pt. 2: Sibkriotekh., Omsk (1999), pp. 216–224.
A. D. Vanyashov, V. S. Kalekin, and S. V. Kovalenko, “Piston expander-compressor unit having self-acting gas distribution systems,” Khim. Neftegaz. Mashinostr., No. 9, 28–31 (2001).
A. P. Zagorodnikov,V. S. Kalekin, D. V. Kalekin, and M. V. Silkov, “Dynamics of pneumatic engine-compressor unit having a crank drive mechanism,” Kompress. Tekh. Pnevmat., No. 7, 18–20 (2008).
V. S. Kalekin and D. V. Kalekin, “Piston pneumatic engines having self-acting valves,” Papers at the All-Russia Sc.-Tekh. Conf.: Urgent Problems of Chem. Technol. and Personnel Training [in Russian], UGNTU, Ufa (2006), pp. 253–258.
Yu. A. Bur’yan, V. S. Kalekin, and A. P. Morgunov, “Prospects of building piston pneumatic engines and units having self-acting valves,” Kompress. Tekh. Pnevmat., No. 2, 31–35 (2007).
Yu. I. Molodova, “Analysis of operation of piston expansion machine,” Kompress. Tekh. Pnevmat., No. 18–19, 37–41 (1998).
V. S. Kalekin, E. G. Bychovskii, A. D. Vanyashov, and V. V. Kalekin, “Piston pneumatic engine having a self-acting inlet valve,” Khim. Tekh., No. 1, 27–29 (2002).
V. S. Kalekin, V. A. Plotnikov, E. G. Bychovskii, and V. V. Kalekin, “Piston pneumatic engine having a self-acting inlet valve,” Vestn. Kuzbas. Gos. Tekh. Univ., No. 3, 46–48 (2002).
V. S. Kalekin, D. V. Kalekin, and A. P. Zagorodnikov, “Experiments on a piston pneumatic motor with self-acting valves,” Khim. Neftegaz. Mashinostr., No. 11, 26–29 (2008).
V. V. Aristov, V. S. Kalekin, and D. V. Kalekin, “Procedure for automated investigations of working processes of piston machines,” in: Papers at the 4th Int. Sc.-Tech. Conf.: Dynamics of Systems, Mechanisms, and Machines [in Russian], Omsk State Technical Univ. Press, Omsk, pp. 3–6 (2007).
Author information
Authors and Affiliations
Additional information
Translated from Khimicheskoe i Neftegazovoe Mashinostroenie, No. 4, pp. 26–31, April, 2009.
Rights and permissions
About this article
Cite this article
Kalekin, V.S., Kalekin, D.V. Working process of direct-flow piston gas engine with a fundamentally new gas distribution system. Chem Petrol Eng 45, 221–229 (2009). https://doi.org/10.1007/s10556-009-9152-9
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10556-009-9152-9