Smart IoT-based temperature-controlled cooling system for solar panels using Arduino
Arduinoを用いたスマートIoT温度制御型太陽光パネル冷却システム (AI 翻訳)
Reddy, Mula Sreenivasa, Krishnaiah, Kondragunta Rama, Gorla, Anjali Devi, Peddinti, Anantha Sravanthi, Nagendram, Sanam, Najumunnisa, Mohammad, Rajanna, Bodapati Venkata, Ahammad, Shaik Hasane, Reddy, Gongati Pandu Ranga
🤖 gxceed AI 要約
日本語
本論文は、Arduino UNOマイクロコントローラを用いたスマート冷却システムを提案。DS18B20温度センサと湿度センサで環境を監視し、閾値を超えるとファンと水ポンプで冷却。実験でピーク時に10~12%の効率向上を確認。遠隔監視も可能で、オフグリッド動作も可能。低コストで資源制約地域に有効。
English
This paper presents a smart temperature-controlled cooling system for solar PV panels using Arduino UNO. It uses DS18B20 sensor and moisture sensor, activating fan and water pump when threshold exceeded. Experiments showed 10-12% efficiency improvement. Remote monitoring via WiFi and cloud (ThingSpeak). Low-cost, off-grid capable, suitable for rural areas.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本でも太陽光発電の効率向上は重要。特に屋外設置パネルでの高温対策は実用的。低コストソリューションは中小企業や農村部に応用可能。ただし日本の気候や規制への適合は別途検討が必要。
In the global GX context
Solar panel overheating is a global issue. This low-cost IoT cooling solution is relevant for developing countries and off-grid applications. Japan's FIT transition and increased solar deployment may benefit from such efficiency measures, but specific adaptation to local conditions is needed.
👥 読者別の含意
🔬研究者:Presents a practical implementation of IoT-based cooling with measurable efficiency gains.
🏢実務担当者:Could be adapted for small-scale solar installations or agrivoltaics to improve yield.
🏛政策担当者:Indicates potential for low-cost efficiency improvements in distributed solar, relevant for energy access policies.
📄 Abstract(原文)
The efficiency of solar photovoltaic panels declines significantly as their surface temperature increases beyond optimal levels. This paper presents a smart, temperature-controlled cooling system based on an Arduino UNO microcontroller to enhance solar panel performance by mitigating overheating. The system integrates a DS18B20 temperature sensor and a moisture sensor to monitor real-time environmental conditions. When the temperature exceeds a defined threshold, the Arduino activates a CPU fan and water pump to dissipate heat effectively. Experimental testing demonstrated an efficiency improvement of approximately 10% to 12% during peak solar conditions. A hysteresis logic-based system with autonomous control is used to control the amount of energy and water utilized, by only cooling when required. An LCD screen displays real-time information locally on-site, while an ESP8266 WiFi module sends information to a "cloud" so that remote monitoring can occur through the ThingSpeak cloud service. The entire system operates entirely from solar energy and is capable of being operated off-the-grid as well as being environmentally friendly. Due to its low cost, modularity, and energy efficiency, this smart cooling solution provides a viable solution for rural areas or areas with limited resources to enhance the performance of photovoltaic systems.
🔗 Provenance — このレコードを発見したソース
- Zenodo https://zenodo.org/records/20636446first seen 2026-06-12 04:21:15
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