Abstract
The paper summarizes the knowledge concerning porous media combustion techniques as applied in engines. One of most important reasons of this review is to introduce this still not well known technology to researchers doing with internal combustion engine processes, thermal engines, reactor thermodynamics, combustion, and material science. The paper gives an overview of possible applications of a highly porous open cell structures to in-cylinder processes. This application means utilization of unique features of porous media for supporting engine processes, especially fuel distribution in space, vaporization, mixing with air, heat recuperation, ignition and combustion. There are three ways for applying porous medium technology to engines: support of individual processes, support of homogeneous combustion process (catalytic and non-catalytic) with temperature control, and utilization of the porous structure as a heat capacitor only. In the first type of application, the porous structure may be utilized for fuel vaporization and improved fuel distribution in space making the mixture more homogeneous in the combustion chamber. Extension of these processes to mixture formation and ignition inside a combustion reactor allows the realization of a homogeneous and a nearly zero emissions level combustion characterized by a homogeneous temperature field at reduced temperature level.
Highlights
Internal combustion (IC) engines have achieved a very high level of technical development characterized by high power density, high torque, relatively high cycle efficiency, and reduced exhaust emissions
One of most important reasons of this review is to introduce this still not well known technology to researchers doing with internal combustion engine processes, thermal engines, reactor thermodynamics, combustion, and material science
In the first type of application, the porous structure may be utilized for fuel vaporization and improved fuel distribution in space making the mixture more homogeneous in the combustion chamber
Summary
Internal combustion (IC) engines have achieved a very high level of technical development characterized by high power density (engine power per swept volume), high torque, relatively high cycle efficiency (especially Diesel engines), and reduced exhaust emissions. One of the possible solutions could be supporting engine processes by the application of highly porous structures to inengine processes, especially to fuel distribution in space, fuel vaporization, mixture preparation, ignition and combustion, as well as in-cylinder heat recuperation. The porous-medium combustion technology means application of highly porous open-cell 3D structures for supporting of these individual engine processes to improve engine-cycle efficiency and to perform clean combustion. Application to in-cylinder processes means the utilization of unique features of highly porous open-cell 3D structures (as described ) to control and to improve individual engine processes performed inside the cylinder, especially fuel distribution in space, fuel vaporization, mixture formation, ignition, combustion process and heat recuperation.
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