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Dataset for "Autonomous PV-Powered Smart Windows: Active Glass Heating in NZEB Applications"

自律型PV搭載スマートウィンドウ:NZEBアプリケーションにおけるアクティブガラス加熱のデータセット (AI 翻訳)

Koshlak, Hanna

Zenodoデータセット2026-07-01#省エネOrigin: EU経営インパクト: コスト削減対象セクター: construction
DOI: 10.5281/zenodo.21106542
原典: https://zenodo.org/records/21106542

🤖 gxceed AI 要約

日本語

本データセットは、太陽光発電(PV)で駆動するスマートウィンドウの能動的ガラス加熱に関する実験データを提供する。気候チャンバー試験と実地計測(2026年1月~3月)を含み、熱流、温度、PV出力、バッテリー状態などを高時間分解能で記録。NZEB(Nearly Zero-Energy Building)におけるエネルギー効率向上に貢献する。

English

This dataset provides experimental time-series data for autonomous PV-powered smart windows with active glass heating. It includes climate chamber tests and in-situ field measurements (Jan-Mar 2026) with high-resolution logs of heat flux, temperatures, PV power, battery state, and thermal load. Supports energy efficiency research in Nearly Zero-Energy Buildings.

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

ポーランドの研究だが、日本のZEB(Net Zero Energy Building)推進や、PV活用型建材の開発にも参考となる。ただし、日本の気候や建築基準との整合性は別途検討が必要。

In the global GX context

This dataset from Poland offers high-resolution experimental data on PV-integrated smart windows with active heating, relevant to global NZEB research. It demonstrates an autonomous energy system for building envelopes, aligning with the EU's energy efficiency directives and global trends in building-integrated photovoltaics (BIPV).

👥 読者別の含意

🔬研究者:Building energy researchers can use this open-access dataset for validating models of PV-powered smart windows with active heating in cold climates.

📄 Abstract(原文)

Dataset for "Autonomous PV-Powered Smart Windows: Active Glass Heating in NZEB Applications" PROJECT INFORMATION - Granting Agency: National Science Centre (NCN), Poland - Grant Scheme: MINIATURA 9 - Grant Number:  DEC-2025/09/X/ST8/00339 - Project Title: Integracja fotowoltaiki z oknami ogrzewanymi elektrycznie:   pilotażowe badanie w celu zwiększenia efektywności energetycznej budynków   (Integrating photovoltaics with electrically heated windows: a pilot   investigation for enhanced building energy efficiency) -Principal investigator: Dr. Hanna Koshlak - Institution: Kielce University of Technology, Faculty of Environmental Engineering, Geodesy, and Renewable Energy, Kielce, Poland This open-access dataset contains raw and processed high-temporal-resolution experimental time-series logs supporting the research paper presented at the "CONECT conference: "Autonomous PV-Powered Smart Windows: Active Glass Heating in NZEB Applications" Available at: https://ect-journals.rtu.lv/conect/article/view/CONECT.2026.001 The dataset package consists of the following data files: 1) climatic_chamber_high_res_timeseries.csv    - Resolution: Minute-by-minute logs (720 records)    - Scope: Laboratory test cycles inside a dual-zone climatic chamber       replicating baseline scenarios (T_ext = 0 °C and T_ext = -25 °C)       across both passive and active states (25 W thermal barrier active load). 2) insitu_field_high_res_timeseries.csv    - Resolution: Hourly intervals (2160 records)    - Scope: Environmental and electrical time-series parameters capturing       real-world operational profiles across January, February, and March 2026.  DATA DICTIONARY & INSTRUMENTATION SPECIFICATIONS 1. Heat Flux Monitoring:    9x Hukseflux FHF05 thin-film sensors (heat flux sensors installed directly adjacent to the polyimide foil on Surface 5  connected to LI19 high-precision recorders. 2. Gap 1 Temperature:       9x K-type thermocouples (Pico Technology) placed in 3x3 grid. 3. Surface Temperatures:    3x Omega SA3-K (Surface 2) and 1x Omega SA3-K (Surface 6). 4. Interior Gap 2:          1x K-type thermocouple (Pico Technology). 5. Data Logging System:     Lutron TM-947SD and Hukseflux LI19 (1-minute stabilization logs). 6. HF11: total net energy exchange (W/m²) logged via a room-facing Hukseflux    sensor on Surface 6. 6. Solar irradiation: real-world solar power density (W/m²) incident    on the south-eastern testing facade. 7. PV Power Yield, W: instantaneous electrical power output (W) generated by    the active glazing integrated photovoltaic framework. 8. Battery state of charge: monitored capacity status (%) of the 60 Ah    LiFePO4 battery storage buffer. 9 Thermal barrier load, W: power consumption (W) allocated to the active    window heating structure.

🔗 Provenance — このレコードを発見したソース

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gxceed は公開メタデータに基づく研究支援データセットです。要約・翻訳・解説は AI 支援で生成されています。 最終的な解釈・検証は利用者が原典資料に基づいて行うことを前提とします。