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This design showcases a highly integrated solution for accurate voltage, current, and temperature monitoring along with ZigBee® communication using the CC2538 to enable solar module level monitoring.
A novel asymmetric oblique compound conical solar concentrator was designed and constructed with automatic solar tracking system. The experimental study of the developed system was carried out to inspect the efficiency of the designed solar concentrator and automatic azimuth and altitude tracking.
For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer - Raspberry Pi based and sensor system is proposed. Different data sets are observed for sensors, thermometers, and thermocouples and they are compared. The consistency of the automated temperature measurement system is also verified.
Return to Article Details Raspberry Pi based automatic temperature measurement and logging system for solar thermal purposes Download Download PDF Raspberry Pi based
For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer - Raspberry Pi based and sensor system is proposed. Different data sets are observed for sensors, thermometers, and thermocouples and they are compared. The consistency of the automated temperature measurement system is also verified.
This paper discusses the design of an autonomous system for measuring the real technical potential of solar power, accounting for weather and climate impacts. A combined measurement system using the photoelectric method and additional sensors was designed to track weather data. The system integrates a photoelectric module, sensors for electrical
In this work a simple low cost sensor-based microcontroller data acquisition system for monitoring the temperature data in solar installations is developed. The system can easily change the date, time of experiment start and end, sampling rate and deals correctly with corruption such as power failure.
The experimental setup is designed to measure and compare the varying temperature data due to various solar thermal experimental conditions. The integrated setup consists of Raspberry Pi, temperature sensor (DS18B20), python script, and interfacing Linux machine.
The authors discuss a problem of ensuring the optimal temperature conditions of the technological process for obtaining transparent conductive coatings using spray pyrolysis. To solve this problem, a system of automatic control of the substrate temperature is proposed, which, unlike previously used “manual” temperature setting methods, ensures the required
For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer Raspberry Pi based and sensor system is proposed and the consistency of the automated temperature measurement system is verified. For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer Raspberry Pi
Keywords: temperature measurement system; Automatic temperature logging system; Raspberry Pi; solar thermal pond; open-source hardware. DS18B20 sensors can be designed as an integrated system for solar thermal
The study used an automatic controller to monitor the temperature data of the entire system. The developed solar heat supply system has a flat solar collector, heat-insulating...
For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer - Raspberry Pi based and sensor system is proposed.
This work develops, constructs and tests a precise, inexpensive instrumentation system applied to reliable temperature measurement in photovoltaic facilities. The system configuration is based on a digital sensor, the Dallas Semiconductor™ DS18B20.
automatic solar station to measure the potential of solar energy based measurement system of solar energy resource in are solar radiation sensor, temperature sensor and relative
PRODUCT DESCRIPTION. RK200-08 Automatic tracking solar radiation measurement system is an unattended solar radiationmonitoring system, which can accurately observe
For automatic temperature measuring and logging purposes in solar thermal experiments, a single board computer - Raspberry Pi based and sensor system is proposed. Different data sets are observed for sensors, thermometers, and thermocouples and they are compared.
The experimental setup is designed to measure and compare the varying temperature data due to various solar thermal experimental conditions. The integrated setup consists of Raspberry Pi, temperature sensor (DS18B20),