Changes
On February 13, 2023 at 8:40:18 AM UTC,
Gillianne Bowman:
-
Updated description of Linking solar and biomass resources to generate renewable energy: can we find local complementarities in the agricultural setting? from
Additional references to the article: Linking solar and biomass resources to generate renewable en-ergy: can we find local complementarities in the agricultural setting? Gillianne Bowman, Thierry Huber, Vanessa Burg Energies, https://www.mdpi.com/1996-1073/16/3/1486
toAdditional references to the article: Linking solar and biomass resources to generate renewable en-ergy: can we find local complementarities in the agricultural setting? Gillianne Bowman, Thierry Huber, Vanessa Burg Energies, https://www.mdpi.com/1996-1073/16/3/1486 Today, the energy transition is underway to tackle the problems of climate change and energy sufficiency. For this transition to succeed, it is essential to use all available re-newable energy resources most efficiently. However, renewable energies often bring high volatility that needs to be balanced. One solution is to combine the use of different renewable sources to increase the overall energy output or reduce its environmental impact. Here, we estimate the agricultural solar and biomass resources at the local level in Switzerland, considering their spatial and temporal variability using Geographic In-formation Systems. We then identify the technologies that could allow synergies or complementarities. Overall, the technical agricultural resources potential is ~15 PJ/annus biogas yield from residual biomass and ~10 TWh/a electricity from solar installed on roofs (equivalent to ~36 PJ/a). Anaerobic digestion, combined heat & power plant, Raw manure separation, Biomethane upgrading, Power to X, Electrolysis, Chill generation and Pho-tovoltaic on biogas facilities could foster complementarity in the system if resources are pooled within the agricultural setting. Temporal complementarity at the farm scale can only lead to partial autarchy. The possible benefits from these complementarities should be better identified, particulary in looking looking at the economic viability of such systems.
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| t | 28 | "notes": "Additional references to the article: \r\nLinking solar | t | 28 | "notes": "Additional references to the article: \nLinking solar and |
| 29 | and biomass resources to generate renewable en-ergy: can we find local | 29 | biomass resources to generate renewable en-ergy: can we find local | ||
| 30 | complementarities in the agricultural setting?\r\nGillianne Bowman, | 30 | complementarities in the agricultural setting?\nGillianne Bowman, | ||
| 31 | Thierry Huber, Vanessa Burg\r\nEnergies, | 31 | Thierry Huber, Vanessa Burg\nEnergies, | ||
| 32 | https://www.mdpi.com/1996-1073/16/3/1486", | 32 | https://www.mdpi.com/1996-1073/16/3/1486\n\n\nToday, the energy | ||
| 33 | transition is underway to tackle the problems of climate change and | ||||
| 34 | energy sufficiency. For this transition to succeed, it is essential to | ||||
| 35 | use all available re-newable energy resources most efficiently. | ||||
| 36 | However, renewable energies often bring high volatility that needs to | ||||
| 37 | be balanced. One solution is to combine the use of different renewable | ||||
| 38 | sources to increase the overall energy output or reduce its | ||||
| 39 | environmental impact. Here, we estimate the agricultural solar and | ||||
| 40 | biomass resources at the local level in Switzerland, considering their | ||||
| 41 | spatial and temporal variability using Geographic In-formation | ||||
| 42 | Systems. We then identify the technologies that could allow synergies | ||||
| 43 | or complementarities. Overall, the technical agricultural resources | ||||
| 44 | potential is ~15 PJ/annus biogas yield from residual biomass and ~10 | ||||
| 45 | TWh/a electricity from solar installed on roofs (equivalent to ~36 | ||||
| 46 | PJ/a). Anaerobic digestion, combined heat & power plant, Raw manure | ||||
| 47 | separation, Biomethane upgrading, Power to X, Electrolysis, Chill | ||||
| 48 | generation and Pho-tovoltaic on biogas facilities could foster | ||||
| 49 | complementarity in the system if resources are pooled within the | ||||
| 50 | agricultural setting. Temporal complementarity at the farm scale can | ||||
| 51 | only lead to partial autarchy. The possible benefits from these | ||||
| 52 | complementarities should be better identified, particulary in looking | ||||
| 53 | looking at the economic viability of such systems.", | ||||
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| 78 | generate renewable en-ergy: can we find local complementarities in the | 99 | generate renewable en-ergy: can we find local complementarities in the | ||
| 79 | agricultural setting?\r\nGillianne Bowman, Thierry Huber, Vanessa | 100 | agricultural setting?\r\nGillianne Bowman, Thierry Huber, Vanessa | ||
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| 209 | }, | 230 | }, | ||
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| 211 | "display_name": "PHOTOVOLTAIC", | 232 | "display_name": "PHOTOVOLTAIC", | ||
| 212 | "id": "4d8ab113-9726-4978-9d61-2add0a5f0b05", | 233 | "id": "4d8ab113-9726-4978-9d61-2add0a5f0b05", | ||
| 213 | "name": "PHOTOVOLTAIC", | 234 | "name": "PHOTOVOLTAIC", | ||
| 214 | "state": "active", | 235 | "state": "active", | ||
| 215 | "vocabulary_id": null | 236 | "vocabulary_id": null | ||
| 216 | } | 237 | } | ||
| 217 | ], | 238 | ], | ||
| 218 | "title": "Linking solar and biomass resources to generate renewable | 239 | "title": "Linking solar and biomass resources to generate renewable | ||
| 219 | energy: can we find local complementarities in the agricultural | 240 | energy: can we find local complementarities in the agricultural | ||
| 220 | setting?", | 241 | setting?", | ||
| 221 | "type": "dataset", | 242 | "type": "dataset", | ||
| 222 | "url": null, | 243 | "url": null, | ||
| 223 | "version": "1.0" | 244 | "version": "1.0" | ||
| 224 | } | 245 | } |