An efficient and portable photoacoustic multi-gas monitor for biomedical application is needed in hospital in order to detect indoor gas pollution, r to protect the health of workers, patients and visitors. If the highest precision is not required, especially for continuous monitoring of anaesthetic gases, a LED-based (light emitting diode) detecting system can be employed in order to estimate an attention threshold level of gas. This paper illustrates a design and characterization of a led-based photoacoustic chamber (sensing-actuating system and cell) for anaesthetic gas detection. A measurement campaign has been conducted in a surgery room; the results have been compared with another photoacoustic instrumentation used simultaneously. The main asset of the new system is a double source of LED light instead of a more traditional system.
LED-Based Sensing system for Biomedical Gas Monitoring: Design and Experimentation of a Photoacoustic Chamber
LAY EKUAKILLE, Aime;
2009-01-01
Abstract
An efficient and portable photoacoustic multi-gas monitor for biomedical application is needed in hospital in order to detect indoor gas pollution, r to protect the health of workers, patients and visitors. If the highest precision is not required, especially for continuous monitoring of anaesthetic gases, a LED-based (light emitting diode) detecting system can be employed in order to estimate an attention threshold level of gas. This paper illustrates a design and characterization of a led-based photoacoustic chamber (sensing-actuating system and cell) for anaesthetic gas detection. A measurement campaign has been conducted in a surgery room; the results have been compared with another photoacoustic instrumentation used simultaneously. The main asset of the new system is a double source of LED light instead of a more traditional system.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.