Performance Evaluation of Flywheel Solar water pump for Semiarid Climate Zone in Nigeria Using ANOVA
ANOVAを用いたナイジェリア半乾燥気候帯におけるフライホイール式太陽光水ポンプの性能評価 (AI 翻訳)
Abdulwahab Buhari Zogirma*, Ishaya Musa Dagwa, Tanko Musa Zarmai
🤖 gxceed AI 要約
日本語
本研究は、ナイジェリアの半乾燥気候帯においてフライホイール式太陽光水ポンプの性能を流量に基づいて評価した。異なる4地点(カノ、アブジャ、ナイジェル、ケッビ)と標準試験条件でデータを収集し、ANOVA分析を実施した。結果、温度と日射量が流量に有意な影響を与え、ポンプ効率は53%であることが示された。
English
This study evaluates the performance of a flywheel solar water pump in Nigeria's semi-arid climate zone using flow rate as the performance metric. Data from four locations and standard test conditions were analyzed via ANOVA. Results show significant effects of temperature and irradiance on flow rate, with a pump efficiency of 53%.
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
本論文はナイジェリアの小規模農業向け太陽光ポンプの実用評価であり、日本のGX文脈では直接的な関連は薄いが、途上国における再生可能エネルギー導入の課題や効率改善の参考事例となる。
In the global GX context
This paper provides empirical performance data for solar water pumps in a semi-arid region, relevant to off-grid renewable energy applications in developing countries. Global readers interested in energy access and agricultural sustainability may find the efficiency insights useful.
👥 読者別の含意
🔬研究者:Researchers studying solar pumping systems in hot climates can use the ANOVA methodology and efficiency data for comparative studies.
🏢実務担当者:NGOs or companies deploying solar pumps in arid regions can use the findings to optimize siting and design for better flow rates.
📄 Abstract(原文)
Flywheel solar water pump is a pump used to deliver water for irrigation farming and domestic used for house hold. Flywheel was incorporated on the rotating shaft to increase the shaft power and minimized power waste during operation. Mounting or installing solar water pump in a wrong location lead to the solar water pump shot life and low discharge capacity when in used. To evaluate the performance matrix (flow rate) flywheel solar water pump in semi-arid climate zone in Nigeria and examine a suitable location with reasonable discharge capacity of this pump was the aimed of this study. Standard test condition and four (4) location was choosing with the average temperature of the location and solar irradiance of dry and wet season. Analysis of variance was used to analyze performance flywheel solar water pump in term of flow rate capacity. STC (250C), Kano (270C), Abuja (280C), Niger (290C), and Kebbi (300C) with irradiance of 1000W/m2, 5800W/m2 and 7000W/m2 respectively. The findings show that, the location with temperature such are 250C, 270C, 280C, 290C, and 300C indicate that, the flow rate in m3/s also differ such as 0.0025m3/s, 0.00275m3/s, 0.0005m3/s, 0.0030m3/s and 0.0010m3/s respectively. Also the irradiance (W/m2) for standard test condition, dry season and wet season such are 1000W/m2, 5800W/m2, 7000W/m2 has difference effect on the defendant or response factor (flow rate m3/s) as 0.00275m3/s, 0.0001m3/s and 0.00175m3/s respectively with 53% (0.53) pump efficiency.
🔗 Provenance — このレコードを発見したソース
- Zenodo https://zenodo.org/records/20605120first seen 2026-06-10 04:16:44 · last seen 2026-06-10 04:18:19
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