Author dc.contributor.author | Kiss Viktor M. | |
Author dc.contributor.author | Hetesi Zsolt | |
Author dc.contributor.author | Kiss Tibor | |
Availability Date dc.date.accessioned | 2024-01-17T09:08:32Z | |
Availability Date dc.date.available | 2024-01-17T09:08:32Z | |
Release dc.date.issued | 2024 | |
Issn dc.identifier.issn | 1879-0690 | |
Issn dc.identifier.issn | 1364-0321 | |
uri dc.identifier.uri | http://hdl.handle.net/20.500.12944/21245 | |
Abstract dc.description.abstract | The management and integration of intermittent renewable energy sources, such as wind and solar power, require precise capacity planning due to their variable nature. This study investigated the efficacy of using hourly time resolution in energy system models, a common practice in capacity planning. Concerns have been raised about the ability of hourly data to accurately represent rapid fluctuations in energy production and demand since it inherently constantly under- or overestimates actual real-time conditions. This research compared the outputs of energy models using 60-min resolution data with those utilizing a 1-min resolution benchmark across various dimensions: stability of outputs, temporal performance, geographical performance, impact of starting time shifts in data sampling, and trend effects. Results indicate that models using 60-min resolution data maintain a high level of accuracy, with output deviations of less than 2 % from the benchmark. This finding provides strong support that the current significant number of research studies, based on 60-min resolution data, do not carry potentially biased results due to their time resolution and are suitable for capacity planning decisions, thereby aiding in policy formulation. | |
Language dc.language | en | |
Keywords dc.subject | Energy system models | |
Keywords dc.subject | Capacity planning | |
Keywords dc.subject | Time resolution | |
Keywords dc.subject | Intermittent renewable energy sources | |
Keywords dc.subject | Energy policy | |
Title dc.title | The effect of time resolution on energy system simulation in case of intermittent energies | |
Type dc.type | folyóiratcikk | |
Date Change dc.date.updated | 2024-01-12T10:22:23Z | |
Version dc.description.version | kiadói | |
dc.rights.accessRights | nyílt | |
Doi ID dc.identifier.doi | 10.1016/j.rser.2023.114099 | |
Discipline Discipline + dc.subject.discipline | Természettudományok | |
dc.subject.sciencebranch | Természettudományok/Környezettudományok | |
MTMT ID dc.identifier.mtmt | 34396515 | |
dc.identifier.journalTitle | Renewable & Sustainable Energy Reviews | |
dc.identifier.journalVolume | 191 | |
Scope dc.format.page | 114099 | |
Wos ID dc.identifier.wos | 001125893200001 | |
ID Scopus dc.identifier.scopus | 85177861358 | |
dc.identifier.journalAbbreviatedTitle | RENEW SUST ENERG REV | |
Release Date dc.description.issuedate | 2024 | |
Author institution dc.contributor.department | Alkalmazott Matematika Tanszék | |
Author institution dc.contributor.department | Víz- és Környezetbiztonsági Tanszék | |
Author institution dc.contributor.department | Kvantitatív Menedzsment Intézet | |
Author institution dc.contributor.department | Államkutatási és Fejlesztési Intézet | |
Author institution dc.contributor.department | Regionális Innováció- és Vállalkozáskutató Központ | |
Author institution dc.contributor.department | Alkalmazott Matematika Tanszék | |
Author institution dc.contributor.department | Fenntartható Fejlődés Tanulmányok Intézet |