Plant factories: Reducing energy demand at high internal heat loads through façade design
The increase in global food demand has led to the introduction of new food production systems. One key example is the plant factory. Plant factories face the same challenge as many high-tech building functions: high energy demands resulting from high internal heat loads. In this study we investigate how this energy demand can be reduced through façade design. Energy efficient design closely follows function, façade construction and local climate. Therefore, we analysed the effects of façade properties on the energy use in plant factories for three disparate climate zones: Sweden (Dfc), the Netherlands (Cfb) and the United Arab Emirates (BWh). We coupled the building energy simulation program EnergyPlus with a crop transpiration model to calculate the lighting, sensible cooling, latent cooling, and heating demand from the energy balance. In terms of energy demand (kWh m−2), opaque façades with high U-values and optimised albedo can reduce the facilities’ cooling demand by 18.8%, 30.0% and 30.4%, and their energy demand by 6.1%, 12.5% and 9.5%, for the United Arab Emirates, the Netherlands and Sweden, respectively. In terms of electricity use (kWhe m−2), transparent façades are more efficient, as they allow the use of freely available solar energy instead of artificial light. These façades can reduce electricity use by 9.4%, 7.6% and 7.4%, for the United Arab Emirates, the Netherlands and Sweden, respectively. The presented façade design strategies can significantly reduce energy demand in plant factories. The investigation provides a foundation for the energy efficient design of high-tech buildings, tailored to local climate.
Saved in:
| Main Authors: | , , , |
|---|---|
| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Cooling demand, Data centre, Energy efficiency, Façade design, Urban agriculture, Vertical farm, |
| Online Access: | https://research.wur.nl/en/publications/plant-factories-reducing-energy-demand-at-high-internal-heat-load |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
dig-wur-nl-wurpubs-561920 |
|---|---|
| record_format |
koha |
| spelling |
dig-wur-nl-wurpubs-5619202025-01-15 Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Stanghellini, Cecilia Article/Letter to editor Applied Energy 262 (2020) ISSN: 0306-2619 Plant factories: Reducing energy demand at high internal heat loads through façade design 2020 The increase in global food demand has led to the introduction of new food production systems. One key example is the plant factory. Plant factories face the same challenge as many high-tech building functions: high energy demands resulting from high internal heat loads. In this study we investigate how this energy demand can be reduced through façade design. Energy efficient design closely follows function, façade construction and local climate. Therefore, we analysed the effects of façade properties on the energy use in plant factories for three disparate climate zones: Sweden (Dfc), the Netherlands (Cfb) and the United Arab Emirates (BWh). We coupled the building energy simulation program EnergyPlus with a crop transpiration model to calculate the lighting, sensible cooling, latent cooling, and heating demand from the energy balance. In terms of energy demand (kWh m−2), opaque façades with high U-values and optimised albedo can reduce the facilities’ cooling demand by 18.8%, 30.0% and 30.4%, and their energy demand by 6.1%, 12.5% and 9.5%, for the United Arab Emirates, the Netherlands and Sweden, respectively. In terms of electricity use (kWhe m−2), transparent façades are more efficient, as they allow the use of freely available solar energy instead of artificial light. These façades can reduce electricity use by 9.4%, 7.6% and 7.4%, for the United Arab Emirates, the Netherlands and Sweden, respectively. The presented façade design strategies can significantly reduce energy demand in plant factories. The investigation provides a foundation for the energy efficient design of high-tech buildings, tailored to local climate. en application/pdf https://research.wur.nl/en/publications/plant-factories-reducing-energy-demand-at-high-internal-heat-load 10.1016/j.apenergy.2020.114544 https://edepot.wur.nl/516656 Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research |
| institution |
WUR NL |
| collection |
DSpace |
| country |
Países bajos |
| countrycode |
NL |
| component |
Bibliográfico |
| access |
En linea |
| databasecode |
dig-wur-nl |
| tag |
biblioteca |
| region |
Europa del Oeste |
| libraryname |
WUR Library Netherlands |
| language |
English |
| topic |
Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm |
| spellingShingle |
Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Stanghellini, Cecilia Plant factories: Reducing energy demand at high internal heat loads through façade design |
| description |
The increase in global food demand has led to the introduction of new food production systems. One key example is the plant factory. Plant factories face the same challenge as many high-tech building functions: high energy demands resulting from high internal heat loads. In this study we investigate how this energy demand can be reduced through façade design. Energy efficient design closely follows function, façade construction and local climate. Therefore, we analysed the effects of façade properties on the energy use in plant factories for three disparate climate zones: Sweden (Dfc), the Netherlands (Cfb) and the United Arab Emirates (BWh). We coupled the building energy simulation program EnergyPlus with a crop transpiration model to calculate the lighting, sensible cooling, latent cooling, and heating demand from the energy balance. In terms of energy demand (kWh m−2), opaque façades with high U-values and optimised albedo can reduce the facilities’ cooling demand by 18.8%, 30.0% and 30.4%, and their energy demand by 6.1%, 12.5% and 9.5%, for the United Arab Emirates, the Netherlands and Sweden, respectively. In terms of electricity use (kWhe m−2), transparent façades are more efficient, as they allow the use of freely available solar energy instead of artificial light. These façades can reduce electricity use by 9.4%, 7.6% and 7.4%, for the United Arab Emirates, the Netherlands and Sweden, respectively. The presented façade design strategies can significantly reduce energy demand in plant factories. The investigation provides a foundation for the energy efficient design of high-tech buildings, tailored to local climate. |
| format |
Article/Letter to editor |
| topic_facet |
Cooling demand Data centre Energy efficiency Façade design Urban agriculture Vertical farm |
| author |
Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Stanghellini, Cecilia |
| author_facet |
Graamans, Luuk Tenpierik, Martin van den Dobbelsteen, Andy Stanghellini, Cecilia |
| author_sort |
Graamans, Luuk |
| title |
Plant factories: Reducing energy demand at high internal heat loads through façade design |
| title_short |
Plant factories: Reducing energy demand at high internal heat loads through façade design |
| title_full |
Plant factories: Reducing energy demand at high internal heat loads through façade design |
| title_fullStr |
Plant factories: Reducing energy demand at high internal heat loads through façade design |
| title_full_unstemmed |
Plant factories: Reducing energy demand at high internal heat loads through façade design |
| title_sort |
plant factories: reducing energy demand at high internal heat loads through façade design |
| url |
https://research.wur.nl/en/publications/plant-factories-reducing-energy-demand-at-high-internal-heat-load |
| work_keys_str_mv |
AT graamansluuk plantfactoriesreducingenergydemandathighinternalheatloadsthroughfacadedesign AT tenpierikmartin plantfactoriesreducingenergydemandathighinternalheatloadsthroughfacadedesign AT vandendobbelsteenandy plantfactoriesreducingenergydemandathighinternalheatloadsthroughfacadedesign AT stanghellinicecilia plantfactoriesreducingenergydemandathighinternalheatloadsthroughfacadedesign |
| _version_ |
1822267355376386048 |