Title :
Microwave-induced-acoustic sensing of alcohol in water
Author :
Jackson, Dickon H.
Author_Institution :
Dept. of Electr. & Electron. Eng., Napier Univ., Edinburgh, UK
Abstract :
The high deviation in the absorption of electromagnetic energy in water and alcohol at lower regions of the microwave frequency spectrum allowed microwave induced pressure fluctuations to be implemented as a means of detecting methanol within water. Spectral thermal measurements across 0.9 GHz to 5 GHz were used to verify the absorption differences, the subsequent data indicating twin maxima in methanol where only a single maxima would be expected due to a single relaxation time. The pressure measurements used moderate power, long duration, sample excitation as an alternative to the high power short duration systems that have been previously described. The technique was successfully implemented using a modified domestic microwave oven and minimal signal processing to obtain a detection accuracy of better than 10% with water/methanol concentrations
Keywords :
acoustic microwave devices; chemical variables measurement; ovens; spectrochemical analysis; 0.9 to 5 GHz; absorption differences; detection accuracy; domestic microwave oven; electromagnetic energy absorption; long duration sample excitation; methanol; microwave frequency spectrum; microwave induced pressure fluctuations; microwave-induced-acoustic sensing; relaxation time; spectral thermal measurements; Electromagnetic measurements; Electromagnetic wave absorption; Fluctuations; Methanol; Microwave frequencies; Microwave ovens; Microwave theory and techniques; Pressure measurement; Signal processing; Time measurement;
Conference_Titel :
High Frequency Postgraduate Student Colloquium, 1997
Conference_Location :
Leeds
Print_ISBN :
0-7803-3951-7
DOI :
10.1109/HFPSC.1997.651652
