Research on Control System of Quasi-Homogeneous Lean-Burn Engine

A supply fan and an extract fan, at identical settings in identical rooms, do not necessarily have the same effect on the ventilation. For a heated room in which the floor-level vents are larger than the ceilinglevel vents, we show that an extract fan provides better ventilation than a supply fan. If the ceiling-level vents are larger, we show that a supply fan is more effective; this for the same, constant fan airflow rate. We investigate the hybrid ventilation of a room in which the, otherwise buoyancy-driven, ventilation is augmented by a forced volume flux, provided by a supply or extract fan. In hybrid ventilation, naturallyoccurring and mechanically-imposed pressure differences combine to determine the resulting ventilation airflow. Herein, a mathematical model is developed which enables prediction of: the inflow and outflow volume fluxes; the vertical position of the neutral pressure level; and the steady, uniform temperature, within a single, isolated room in hybrid ventilation. The physical problem is reduced to a mathematical model with two controlling parameters; namely, the effective vent area ratio, R * , and a ratio of forced and natural volume fluxes, Q F /Q N . We demonstrate that the volume flux through an open vent can be controlled remotely, by mechanically imposing the volume flux through an entirely separate vent.

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Combined effects of high energy ignition and tumble enhancement on performance of lean combustion for GDI engine

Shen

Chen

et al. 2021

Experimental Thermal and Fluid Science

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Research on Control System of Quasi-Homogeneous Lean-Burn Engine

Cited by 3 publications

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Energy saving potential of heat removal using natural cooling water in the top zone of buildings with large interior spaces

Energy saving potential of heat removal using natural cooling water in the top zone of buildings with large interior spaces

Hybrid ventilation of a room: A theoretical model for the combined effects of mechanically-imposed and buoyancy-induced driving pressures

Combined effects of high energy ignition and tumble enhancement on performance of lean combustion for GDI engine

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