Anti-icing heat exchanger

摘要

A heat exchanger for cooling fluid passing through the heat exchanger. The heat exchanger includes a hot fluid flowpath and a cold air flowpath. At least a portion of the cold air flowpath has a thermally conductive wall transferring thermal energy from hot fluid flowing through the hot fluid flowpath to cold air flowing through the cold air flowpath. The cold air flowpath includes a separator for separating ice particles from the cold air flowing through the cold air flowpath. The separator includes a passage having a bottom wall, an end wall, and a side wall including a porous wall through which a majority of cold air entering the separator passes. The end wall has an ice particle discharge opening adjacent the bottom wall permitting a minority of the cold air entering the separator to carry ice particles separated from the majority of cold air through the opening.

主权项

1. A heat exchanger for cooling fluid passing through the exchanger, the heat exchanger comprising:
a casing; a spaced pair of thermally conductive walls included with the casing; a porous foam panel positioned in spaced relation between the pair of thermally conductive walls and defining a gap between one of the thermally conductive walls and the porous foam panel, the gap defining a hot fluid flowpath inside the gap for carrying a hot fluid from a hot fluid inlet and passing through the porous foam panel to a hot fluid outlet downstream from the hot fluid inlet; a porous side wall positioned in spaced, parallel relation to the thermally conductive wall defining the gap and located on a side of the thermally conductive wall opposite the porous foam panel, the porous side wall separating an upstream passage from a downstream passage of a cold air flowpath for carrying a cold air from a cold air inlet to a cold air outlet, the thermally conductive wall permitting thermal energy to transfer from the hot fluid flowing through the gap along one side of the thermally conductive wall to the cold air flowing along an opposite side of the thermally conductive wall; a bottom wall and the porous side wall collectively defining the upstream passage of the cold air flowpath arranged such that the cold air flows parallel to the porous side wall after entering the cold air inlet, strikes an end wall, and turns orthogonal and passes through the porous side wall and again turns orthogonal and flows parallel to the porous side wall and the thermally conductive wall after passing through the porous side wall; the end wall being located opposite the cold air inlet and configured to separate ice particles from the cold air upon the ice particles striking the end wall and falling to the bottom wall, the end wall having an ice particle discharge opening adjacent the bottom wall permitting a minority of the cold air entering the cold air inlet to carry the ice particles through the ice particle discharge opening and out of the heat exchanger.