Thermal Flow Sensor With a Bidirectional Thermal Reference

Okamoto, Yuki; Nguyen, Thanh-Vinh; Okada, Hironao; Ichiki, Masaaki

doi:10.1109/jmems.2022.3195169

Cited by 3 publications

(1 citation statement)

References 27 publications

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“…Copper blocks have also been used as heat sinks attached to the Peltier modules that are in contact with the microfluidic device. 19,20 In this work, the Peltier effect was chosen for controlling the temperature of the protein reservoir of the dialysis chips. Moreover, a custom-designed aluminium support was manufactured for heat dissipation (see 3.1.2 Thermal regulation) allowing the integration of the thermal regulation system into the MicroCrys platform.…”

Section: Introductionmentioning

confidence: 99%

Microdialysis on-chip crystallization of soluble and membrane proteins with the MicroCrys platform and in situ X-ray diffraction case studies

Jaho,

Sallaz-Damaz,

Budayova-Spano

2023

CrystEngComm

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Section: Introductionmentioning

confidence: 99%

Microdialysis on-chip crystallization of soluble and membrane proteins with the MicroCrys platform and in situ X-ray diffraction case studies

Jaho,

Sallaz-Damaz,

Budayova-Spano

2023

CrystEngComm

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A Highly Sensitive Dual-Mode Thermal Flow Sensor Based on Calorimetric Mode

Qiao,

Chen,

Jiao

et al. 2024

IEEE Sensors J.

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Solar Powered Thermoelectric Air Conditioning for Temperature Control in Poultry Incubators

Cheepati,

Balal

2024

Sustainability

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Proper air conditioning is crucial for hatching, growing, and reproducing poultry chickens. The existing methods are often costly and only viable for some chicken farmers. This paper presents a novel solar-powered thermoelectric module that utilizes the Peltier effect for efficient cooling and heating in poultry incubators. The proposed system consists of a Peltier module with cool and hot junctions, powered by a solar panel through a charge controller and battery. The cool junction is located in the chicken-breeding and reproduction unit, while the hot junction is situated in the egg-incubation unit. Temperature controllers maintain the required temperatures of 35–40 °C for the egg-hatching and 10–24 °C for the chicken-growing units. The experimental results demonstrate the system’s effectiveness in maintaining the desired temperatures. This solar-powered thermoelectric air conditioning system offers advantages over traditional methods, including lower energy consumption, reduced costs, and eco-friendliness. It has the potential to benefit off-grid poultry farmers and reduce energy bills for existing chicken farms. The mathematical modeling, load calculations, and prototype results show that the proposed system is best suited for providing the required cooling and heating effects in poultry incubators. This research represents a significant step forward in temperature control for poultry incubators and could revolutionize poultry farming practices, especially in remote locations with limited electricity access.

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Thermal Flow Sensor With a Bidirectional Thermal Reference

Cited by 3 publications

References 27 publications

Microdialysis on-chip crystallization of soluble and membrane proteins with the MicroCrys platform and in situ X-ray diffraction case studies

Microdialysis on-chip crystallization of soluble and membrane proteins with the MicroCrys platform and in situ X-ray diffraction case studies

A Highly Sensitive Dual-Mode Thermal Flow Sensor Based on Calorimetric Mode

Solar Powered Thermoelectric Air Conditioning for Temperature Control in Poultry Incubators

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