Method for optically detecting gas bubbles moving in a coolant
First Claim
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1. A method for optically detecting gas bubbles in a coolant of a coolant channel of an internal combustion engine, comprising:
- emitting infrared radiation into the coolant from a wall of the coolant channel,measuring scattered infrared radiation caused by the presence of the gas bubbles in the coolant by sensors located in at least two adjacent areas, anddetermining bubble velocity from a travel time between measuring signals.
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Abstract
For optical detection of the velocity of gas bubbles in the cooling liquid of an internal combustion engine, light is radiated into the coolant by means of at least one emitter, and the scattered light caused by the gas bubbles, or rather, the change in intensity of light radiation emitted into the coolant, is measured by an optical sensor. The scattered light or intensity change is measured in at least two adjacent areas, and the velocity of the bubbles is determined from the travel time between the measurement signals.
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Citations
3 Claims
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1. A method for optically detecting gas bubbles in a coolant of a coolant channel of an internal combustion engine, comprising:
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emitting infrared radiation into the coolant from a wall of the coolant channel, measuring scattered infrared radiation caused by the presence of the gas bubbles in the coolant by sensors located in at least two adjacent areas, and determining bubble velocity from a travel time between measuring signals.
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2. A device for optically detecting gas bubbles in a coolant of a coolant channel of an internal combustion engine, said coolant channel having a wall which emits infrared radiation, comprising:
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at least one optical sensor connected to an evaluation unit, at least one probe in communication with said coolant channel, and at least two separated optical waveguides for measuring signals of scattered infrared radiation caused by the presence of the gas bubbles or of change in intensity of infrared radiation emitted into the coolant, at least one of said two optical waveguides entering the coolant channel through said at least one probe. - View Dependent Claims (3)
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Specification