Pyranometers are essential instruments for measuring solar radiation, widely used in environmental monitoring, renewable energy applications, and climate studies. However, the performance of conventional pyranometers is often limited by response speed and accuracy. This project focuses on the design and development of a pyranometer with enhanced response speed and high measurement accuracy. Building upon an existing prototype, the research incorporates advancements in electronic circuit design, sensor integration, and signal processing to optimize the device's performance.

Pyranometers are essential instruments for measuring solar radiation, widely used in environmental monitoring, renewable energy applications, and climate studies. However, the performance of conventional pyranometers is often limited by response speed and accuracy. This project focuses on the design and development of a pyranometer with enhanced response speed and high measurement accuracy. Building upon an existing prototype, the research incorporates advancements in electronic circuit design, sensor integration, and signal processing to optimize the device's performance.

Design and Enhancement of a High-Speed Pyranometer for Improved Solar Radiation Measurement

GHORBANI, MEHDI
2024/2025

Abstract

Pyranometers are essential instruments for measuring solar radiation, widely used in environmental monitoring, renewable energy applications, and climate studies. However, the performance of conventional pyranometers is often limited by response speed and accuracy. This project focuses on the design and development of a pyranometer with enhanced response speed and high measurement accuracy. Building upon an existing prototype, the research incorporates advancements in electronic circuit design, sensor integration, and signal processing to optimize the device's performance.
2024
Design and Enhancement of a High-Speed Pyranometer for Improved Solar Radiation Measurement
Pyranometers are essential instruments for measuring solar radiation, widely used in environmental monitoring, renewable energy applications, and climate studies. However, the performance of conventional pyranometers is often limited by response speed and accuracy. This project focuses on the design and development of a pyranometer with enhanced response speed and high measurement accuracy. Building upon an existing prototype, the research incorporates advancements in electronic circuit design, sensor integration, and signal processing to optimize the device's performance.
High-Speed
Pyranometer
Solar Radiation
Lauree magistrali
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/87673