Airflow Optimization for Olfactory Display Using Inkjet Device

This study presents a novel multichannel olfactory display that utilizes an electroosmotic (EO) pump combined with an inkjet device to dispense odor components. The inkjet device's ability to release tiny liquid amounts (picolitres) significantly improves the dynamic range of odor blending. To...

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Main Authors: Debabhuti, Nilava, Prasetyawan, Dani, Nakamoto, Takamichi
Format: Conference Proceeding
Language:English
Subjects:
Electro-osmotic pump
Evaporation
Fans
Heat pumps
Heating systems
Inkjet device
micro-ceramic heater
Olfactory
Olfactory display
Optimization
PID module
Sensor systems
Sensors
Thermal stability
Voltage
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creator Debabhuti, Nilava
Prasetyawan, Dani
Nakamoto, Takamichi
description This study presents a novel multichannel olfactory display that utilizes an electroosmotic (EO) pump combined with an inkjet device to dispense odor components. The inkjet device's ability to release tiny liquid amounts (picolitres) significantly improves the dynamic range of odor blending. To ensure proper aroma delivery, a micro-ceramic heater was incorporated to evaporate the droplets ejected from the inkjet device. Additionally, the study examines the role of airflow in dispersing the evaporated samples, utilizing a DC fan to optimize airflow for uniform and consistent aroma distribution. A fan in front of the inkjet device showed stability better than that placed at the back side of the device.
doi_str_mv 10.1109/SENSORS60989.2024.10784664
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subjects Electro-osmotic pump
Evaporation
Fans
Heat pumps
Heating systems
Inkjet device
micro-ceramic heater
Olfactory
Olfactory display
Optimization
PID module
Sensor systems
Sensors
Thermal stability
Voltage
title Airflow Optimization for Olfactory Display Using Inkjet Device
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