Time-Stamped Electro-Thermal Measurements and Trip Events for Jirau Hydroelectric Generating Units 核心 · 已核验
doi:10.5281/zenodo.19370391
This dataset contains time-stamped electro-thermal measurements and trip event records from hydroelectric generating units at the Jirau Hydroelectric Power Plant, covering the period from 2023 to 2025.
The dataset was collected and organized within the scope of the SMARTUG Project, entitled “Development of a Smart Online Monitoring and Fault Diagnosis System for Cooling Fans of Generating Units”, under ANEEL R&D Code PD-06631-0016-2023, developed in partnership with Jirau Energia and Fundação Aroeira. The dataset construction is directly associated with the research and development activities carried out in this project, aiming to support scientific studies on condition monitoring, predictive maintenance, fault diagnosis, and early warning systems for hydroelectric generating units.
The data were extracted from the PI System and include time series of operational electro-thermal variables, such as frequency, active power, reactive power, phase current, and temperature measurements associated with relevant components of the cooling system and stator. Specifically, the temperature-related variables include measurements from the heat exchanger, radiator, stator slots, stator windings, and stator core. In addition, the dataset includes a complementary event file containing time-stamped shutdown/trip occurrences and their corresponding operational classifications.
The dataset is composed of two main files: (i) a time-series file containing electro-thermal operational measurements of the generating units, and (ii) an event log file containing trip occurrences associated with timestamps and unit identifiers. Together, these files enable the investigation of thermal and electrical behavior preceding trip events, as well as the development and validation of data-driven and machine learning approaches for anomaly detection and fault prediction in hydropower generation systems.
All data are strictly technical and instrumental in nature. The dataset does not contain persona
- 落地页
- https://zenodo.org/doi/10.5281/zenodo.19370391
- 许可证
- CC-BY-4.0 (判读置信:inferred)
- 国内可访问性
-
国内直连:直连超时(慢或不稳定,非封锁证据) (2026-07-11 检测)
代理通道:可达 (2026-07-11 检测)
检测口径:lychee 双通道单轮探测;「直连超时」表示检测窗口内未完成,系慢或不稳定证据,不构成封锁证据。 - 发布年份
- 2026
- 发布方
- Zenodo
- PHM 任务
condition_monitoringfault_diagnosisanomaly_detection
溯源(PROV,4 条)
| source_url: https://api.datacite.org/dois/10.5281/zenodo.19370391source_citation: DataCite REST 反查(KLS-019,query=fault diagnosis)retrieved_on: 2026-07-10asserted_by: automated_harvestnote: 补量候选(281→300+),经全量人工复核入库;晋升需人工核验 |
| about_field: taskssource_citation: graphrag 抽取自论文 doi:10.5281/zenodo.19370391(model=glm-5.2, temperature=0)retrieved_on: 2026-07-10asserted_by: automated_extractionconfidence_level: grounded_nativenote: values: condition_monitoring, fault_diagnosis, anomaly_detection;候选区,晋升需人工核验(ADR-26) |
| about_field: source_citation: 人工核验:zfbin(委托批准 2026-07-10)retrieved_on: 2026-07-10asserted_by: human_curatorconfidence_level: human_verifiednote: 晋升核心区。晋升批次 04:KLS-019 补量卡,逐卡逐断言对照自述核验(evidence/KLS-016/07) |
| about_field: china_accessibilitysource_citation: KLS-009 链接健康扫描(lychee 双通道)retrieved_on: 2026-07-12asserted_by: automated_harvestnote: 定期刷新标注,仅覆盖本字段;历史结果以最新扫描为准 |