Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study
The municipality of Amsterdam has set stringent carbon emission reduction targets: 55% by 2030 and 95% by 2050 for the entire metropolitan area. One of the key strategies to achieve these goals entails a disconnection of all households from the natural gas supply by 2040 and connecting them to the existing city-wide heat grid. This paper aims to demonstrate the value of considering local energy potentials at the city block level by exploring the potential of a rooftop greenhouse solar collector as a renewable alternative to centralized district heating. An existing supermarket and an ATES component complete this local energy synergy. The thermal energy balance of the three urban functions were determined and integrated into hourly energy profiles to locate and quantify the simultaneous and mismatched discrepancies between energy excess and demand. The excess thermal energy extracted from one 850 m2 greenhouse can sustain up to 47 dwellings, provided it is kept under specific interior climate set points. Carbon accounting was applied to evaluate the system performance of the business-as-usual situation, the district heating option and the local system. The avoided emissions due to the substitution of natural gas by solar thermal energy do not outweigh the additional emissions consequential to the fossil-based electricity consumption of the greenhouse’s crop growing lights, but when the daily photoperiod is reduced from 16 h to 12 h, the system performs equally to the business-as-usual situation. Deactivating growth lighting completely does make this local energy solution carbon competitive with district heating. This study points out that rooftop greenhouses applied as solar collectors can be a suitable alternative energy solution to conventional district heating, but the absence of growing lights will lead to diminished agricultural yields.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Amsterdam, CO emissions, Carbon accounting, Energy transition, FEW nexus, Solar energy, Sustainable city, Synergetic design, Urban farming, |
| Online Access: | https://research.wur.nl/en/publications/towards-fossil-free-citiesa-supermarket-greenhouse-amp-dwelling-i |
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dig-wur-nl-wurpubs-5832012025-01-14 Caat, Nick Ten Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Article/Letter to editor Energies 14 (2021) 2 ISSN: 1996-1073 Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study 2021 The municipality of Amsterdam has set stringent carbon emission reduction targets: 55% by 2030 and 95% by 2050 for the entire metropolitan area. One of the key strategies to achieve these goals entails a disconnection of all households from the natural gas supply by 2040 and connecting them to the existing city-wide heat grid. This paper aims to demonstrate the value of considering local energy potentials at the city block level by exploring the potential of a rooftop greenhouse solar collector as a renewable alternative to centralized district heating. An existing supermarket and an ATES component complete this local energy synergy. The thermal energy balance of the three urban functions were determined and integrated into hourly energy profiles to locate and quantify the simultaneous and mismatched discrepancies between energy excess and demand. The excess thermal energy extracted from one 850 m2 greenhouse can sustain up to 47 dwellings, provided it is kept under specific interior climate set points. Carbon accounting was applied to evaluate the system performance of the business-as-usual situation, the district heating option and the local system. The avoided emissions due to the substitution of natural gas by solar thermal energy do not outweigh the additional emissions consequential to the fossil-based electricity consumption of the greenhouse’s crop growing lights, but when the daily photoperiod is reduced from 16 h to 12 h, the system performs equally to the business-as-usual situation. Deactivating growth lighting completely does make this local energy solution carbon competitive with district heating. This study points out that rooftop greenhouses applied as solar collectors can be a suitable alternative energy solution to conventional district heating, but the absence of growing lights will lead to diminished agricultural yields. en application/pdf https://research.wur.nl/en/publications/towards-fossil-free-citiesa-supermarket-greenhouse-amp-dwelling-i 10.3390/en14020347 https://edepot.wur.nl/548036 Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming |
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Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming Caat, Nick Ten Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
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The municipality of Amsterdam has set stringent carbon emission reduction targets: 55% by 2030 and 95% by 2050 for the entire metropolitan area. One of the key strategies to achieve these goals entails a disconnection of all households from the natural gas supply by 2040 and connecting them to the existing city-wide heat grid. This paper aims to demonstrate the value of considering local energy potentials at the city block level by exploring the potential of a rooftop greenhouse solar collector as a renewable alternative to centralized district heating. An existing supermarket and an ATES component complete this local energy synergy. The thermal energy balance of the three urban functions were determined and integrated into hourly energy profiles to locate and quantify the simultaneous and mismatched discrepancies between energy excess and demand. The excess thermal energy extracted from one 850 m2 greenhouse can sustain up to 47 dwellings, provided it is kept under specific interior climate set points. Carbon accounting was applied to evaluate the system performance of the business-as-usual situation, the district heating option and the local system. The avoided emissions due to the substitution of natural gas by solar thermal energy do not outweigh the additional emissions consequential to the fossil-based electricity consumption of the greenhouse’s crop growing lights, but when the daily photoperiod is reduced from 16 h to 12 h, the system performs equally to the business-as-usual situation. Deactivating growth lighting completely does make this local energy solution carbon competitive with district heating. This study points out that rooftop greenhouses applied as solar collectors can be a suitable alternative energy solution to conventional district heating, but the absence of growing lights will lead to diminished agricultural yields. |
| format |
Article/Letter to editor |
| topic_facet |
Amsterdam CO emissions Carbon accounting Energy transition FEW nexus Solar energy Sustainable city Synergetic design Urban farming |
| author |
Caat, Nick Ten Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy |
| author_facet |
Caat, Nick Ten Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy |
| author_sort |
Caat, Nick Ten |
| title |
Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
| title_short |
Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
| title_full |
Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
| title_fullStr |
Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
| title_full_unstemmed |
Towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : Amsterdam case study |
| title_sort |
towards fossil free cities—a supermarket, greenhouse & dwelling integrated energy system as an alternative to district heating : amsterdam case study |
| url |
https://research.wur.nl/en/publications/towards-fossil-free-citiesa-supermarket-greenhouse-amp-dwelling-i |
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