SYNTHESIS OF AUTOMOBILE IGNITION SYSTEM USING OZONIZED FUEL

The paper presents a mathematical model for electronic control system of the angular ignition timing (AIT) in the (ICE), which is running on ozonized fuel. An algorithm for  ignition system control of internal combustion engine using ozonized fuel has been developed in the paper. A structure of the dynamic ignition system while using a control unit for supplying  ozone into fuel with a purpose to improve automobile ecological and economical indices adapted to operational conditions. Application of the given system allows to ensure minimum reduction of operational petrol consumption and concentration of incomplete combustion products due to optimum ozone dosage into the fuel.  The paper proposes a controlled automobile ignition system as a sequential scheme which has a great number of discrete inputs and outputs and many discrete internal  states. The scheme establishes a functional dependence between input and output states. The paper provides an assessment of ecological indices according to massive emissions of carbon monoxide СО, hydrocarbon С_пН_т and nitric oxide NO_x .  The analysis of  investigations results has been carried out in the paper.

1. Vasil'chenko, V.Iu., Gromiko, A.V., Pilipenko, O.M., Stoliarenko, G.S. (2010). Experimental investigations on ???-3110 engine indices with adding ozone into fuel. V?snik Cherkas'kogo derzhavnogo tekhnolog?chnogo un?versitetu [Proceedings of Cherkasy State Technological University], 4, 109-113 (in Russian).

2. Sosnin, D. A., Yakovlev, V. F. (2005). State-of-the-art automobile electronic systems. Moscow, SOLON-Press. 240 p. (in Russian).

3. Sinelnikov, A. Kh. (1986). Electronic devices for automobiles. Moscow, Energoizdat. 239 p. (in Russian).

4. Morgulev, A. S., Sonin, E. K. (1968). Semiconductor ignition system. Moscow, Energia. 64 p. (in Russian).

5. Ross, Tveg. (2004). Vehicle ignition systems. Moscow, Publishing House Za Ruliom. 96 p. (in Russian).

6. Averbukh, I. I. (1997). Stabilized electronic ignition system. Radio [Radio], 1, 26–27 (in Russian).

7. Guzzella, L., Onder, C. H. (2010). Introduction to Modeling and Control of Internal Combustion Engine Systems. Springer Berlin Heidelberg. 354 p. doi: 10.1007/978-3-642-10775-7.

8. Cook, J. A., Grizzle, J. W., Sun, J. (1996). Engine Control. The Control Handbook. William S. Levine, Ed. CRC Press, 1261-1274.

9. Timchenko, A. A. (2004). Basic principles on systematic approach to systematic analysis of new technology objects. Kiew, Libid'. 288 p. (in Ukrainian).

10. Timchenko, A. A., Podgorny, M. V., Voyko, V. V. (2010). Investigation of structures and simulation of processes for control of multimode independently operational object. Zb?rnik nauk. prats' M?zhnar. nauk.-prakt. konf. «Suchasn? ?nformats?in? ta ?nnovats?in? tekhnolog?? na transport? MINTT-2010» [Collection of scientific papers of International scientific and practical conference “Modern information and innovative technologies in transport MINTT-2010”]. Kherson, 218–220 (in Ukrainian).