Abstract
Pollutant properties in intake air to internal combustion engines were analyzed. Mineral dust particles’ influence on accelerated engine components’ wear was discussed. Dust concentration values in the air under various operating conditions in trucks and special vehicles were presented. The idea and necessity for using two-stage filters, operating in a “multi-cyclone–porous partition” system for vehicles operated in dusty air conditions, are presented. Information from the literature information has been presented, showing that impurities in small grain sizes reduce fiber bed absorbency. It has been shown that such a phenomenon occurs during filter material operation, located directly behind the inertial filter (multi-cyclone), which off-road vehicles are equipped with. It results in a greater pressure drop intensity increase and a shorter proper filter operation period. It has been shown that filter material selection for the motor vehicle air filter requires knowledge of the mass of stopped dust per filtration unit area (dust absorption coefficient km) determined for a given permissible resistance value Δpfdop. It has been shown that there is no information on absorption coefficient values for filter materials operating in a two-stage “multi-cyclone–porous partition” separation system. Original methodology and conditions for determining dust absorption coefficient (km) of a separation partition, operating under the conditions of two-stage filtration, were presented. The following characteristics were tested: separation efficiency, filtration performance, and pressure drop characteristics of three different filtration partitions. These were A (cellulose), B (cellulose and polyester), and C (cellulose, polyester, and nanofibers layer), working individually and in a two-stage system—behind the cyclone. Granulometric dust composition dosed into the cyclone and cyclone downstream was determined. During tests, conditions corresponding to air filter’s actual operating conditions, including separation speed and dust concentration in the air, were maintained. For the pressure drop values, the dust absorption coefficient (km) values of three different filtration partitions (A, B, and C), working individually and in a two-stage system—behind the cyclone—were determined experimentally.
Highlights
A basic working medium component in every internal combustion engine is air taken from the atmosphere
This paper presents an experimental determination methodology of the dust order to fill the gap in this respect, this paper presents an experimental determination absorptionmethodology coefficient of any filter material operating in a two‐stage system—directly after in a twoof the dust absorption coefficient of any filter material operating the inertialstage filter.system—directly
Figure w = f, pressure drop ∆pw = f, and filtration pmax = f(km) as a function of dust absorption coefficient of filter material A working performance d performance dpmax = f as a function of dust absorption coefficient of filter material A working in the “filter set” as second filtration stage and in a single‐
Summary
A basic working medium component in every internal combustion engine is air taken from the atmosphere. The amount taken in depends proportionally on engine power. Air flow, sucked in by the internal combustion engine, depends in direct proportion to the engine’s displacement (Vss ), rotational crankshaft speed (n), and cylinder filling degree (η υ )—the values of which depend on engine type (naturally aspirated or supercharged) and charge air cooler presence. Together with air sucked in from the environment, internal combustion engines suck in a significant amount of natural and anthropogenic pollutants. A main component of these pollutants is dust, including mineral dust, called road dust. SiO2 silica and Al2 O3 corundum are two basic minerals whose content in dust ranges from 60 to 95%, depending on type and substrate condition. Dust contains Fe2 O3, MgO, and CaO
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