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| Format: | Recurso digital |
| Sprog: | engelsk |
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Zenodo
2023
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| Online adgang: | https://doi.org/10.3390/en17010144 |
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| _version_ | 1866901915752726528 |
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| author | Sánchez Jiménez, Jose Luis Muñoz-Rodriguez, Francisco Jiménez-Castillo, Gabino Martínez-Calahorro, Antonio Javier Rus-Casas, Catalina |
| author_facet | Sánchez Jiménez, Jose Luis Muñoz-Rodriguez, Francisco Jiménez-Castillo, Gabino Martínez-Calahorro, Antonio Javier Rus-Casas, Catalina |
| contents | <p>The industrial sector is not the one with the highest energy consumption but, together with, it represents the most, together with the transport sector, the most polluting ones. Photovoltaic Rooftop systems and battery energy storage systems are very strong candidates to include renewable energy, allowing greater grid autonomy and greenhouse gas mitigation. Therefore, this paper aims to outline it will be provided a methodology based on monitored data to analyze the potential of photovoltaic Rooftops with battery energy storage systems regarding self-consumption and self-sufficiency indices in the industrial sector. Direct self-consumption and self-sufficiency indices, either with or without storage, will be analyzed. In addition, the iso self-consumption and iso self-sufficiency curves are used, which allow us to evaluate the matching between the generation and consumption profiles considering either direct self-consumption or the use of batteries. In this sense, a large, medium, and small olive mill were selected in order to cover the entire spectrum of these industries. Olive mills are suitable candidates for the incorporation of photovoltaic systems since generation profiles match the consumption profiles. However, the size of these systems is highly dependent on the period of consumption to be faced. Regarding batteries, both during the <span>harvest</span> and <span>off-harvest periods</span>, the impact on self-sufficiency becomes significant, reaching increases of up to 10%, depending on the battery capacity used.</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_3390_en17010144 |
| institution | Zenodo |
| language | eng |
| publishDate | 2023 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Analysis of Different Scenarios to Include PV Rooftop Systems with Battery Energy Storage Systems in Olive Mills Sánchez Jiménez, Jose Luis Muñoz-Rodriguez, Francisco Jiménez-Castillo, Gabino Martínez-Calahorro, Antonio Javier Rus-Casas, Catalina olive mill self-consumption PV Rooftops batteries iso self-sufficiency curves iso self-consumption curves <p>The industrial sector is not the one with the highest energy consumption but, together with, it represents the most, together with the transport sector, the most polluting ones. Photovoltaic Rooftop systems and battery energy storage systems are very strong candidates to include renewable energy, allowing greater grid autonomy and greenhouse gas mitigation. Therefore, this paper aims to outline it will be provided a methodology based on monitored data to analyze the potential of photovoltaic Rooftops with battery energy storage systems regarding self-consumption and self-sufficiency indices in the industrial sector. Direct self-consumption and self-sufficiency indices, either with or without storage, will be analyzed. In addition, the iso self-consumption and iso self-sufficiency curves are used, which allow us to evaluate the matching between the generation and consumption profiles considering either direct self-consumption or the use of batteries. In this sense, a large, medium, and small olive mill were selected in order to cover the entire spectrum of these industries. Olive mills are suitable candidates for the incorporation of photovoltaic systems since generation profiles match the consumption profiles. However, the size of these systems is highly dependent on the period of consumption to be faced. Regarding batteries, both during the <span>harvest</span> and <span>off-harvest periods</span>, the impact on self-sufficiency becomes significant, reaching increases of up to 10%, depending on the battery capacity used.</p> |
| title | Analysis of Different Scenarios to Include PV Rooftop Systems with Battery Energy Storage Systems in Olive Mills |
| topic | olive mill self-consumption PV Rooftops batteries iso self-sufficiency curves iso self-consumption curves |
| url | https://doi.org/10.3390/en17010144 |