Lista zgłoszonych artykułów

Applying of a closed work cycle in the piston engine leads usually to delivering of heat to working medium through a heat exchanger (Stirling engine). The heat may get from any type of fuel in an external combustion chamber, which allows on precisly control od combustion process. The paper describes a new conception of two-stroke engine with working medium being in the close system, the best with the perfect gas as argon or helium. The engine has the conventional crank-piston system and an inlet and outlet valves placed in the cylinder head. The delivering process of working medium with high temperature from the heat exchanger takes place through the inlet walve during a few dozen degrees of CA rotation in piston position at TDC. Expansion stroke takes place until outlet valve opens shortly BBDC. The outlet period from the cylinder follows almost at constant pressure and at low temperature to an adiabatic chamber, from where the working medium is compressed by an adiabatic compressor to pressure near pressure being in the heat exchanger. The engine works in two-stroke cycle and enables to get low temperature and pressure as early as BDC through a long time of opening of the outlet valve. The paper presents the ideological scheme of the engine system and theoretical thermal cycle. On this basis one presents the mathematical description of the individual thermodynamic processes with determination of thermal parameters of the characteristic points of the cycle with taking into account of work of the compressor and amount of delivering heat to the exchanger. This article determines also the thermal efficiency of such closed cycle. The presented engine may have a pratical applying as a stationary engine in enegetic systems, where as fuel may be biomass, which globally influences on decreasing of CO2 and NOx by temperature control of the combustion process.