A novel approach to account for shape-morphing and kinetic shading systems in building energy performance simulations
This paper proposes an innovative approach to analyse the energy behaviour of complex kinetic shading systems. Although several studies have analysed this topic, many are focused only on certain aspects or on simple shading systems due to a lack of tools for running reliable energy simulations on co...
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| Veröffentlicht in: | Journal of building performance simulation Jg. 16; H. 3; S. 346 - 365 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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Abingdon
Taylor & Francis
04.05.2023
Taylor & Francis Ltd |
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| ISSN: | 1940-1493, 1940-1507 |
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| Abstract | This paper proposes an innovative approach to analyse the energy behaviour of complex kinetic shading systems. Although several studies have analysed this topic, many are focused only on certain aspects or on simple shading systems due to a lack of tools for running reliable energy simulations on complex systems. This study aims to develop and validate a tool based on Python and EnergyPlus that can consider the continuous nature of the energy simulation and analyse complex kinetic systems. Simply providing an EnergyPlus model and a model of the shading configurations, the algorithm provides as output a comparison sheet to evaluate the performance of the system. The paper provides a description of the tools and studies focused on this topic; subsequently, a methodological insight is presented to explain the workflow, its validation, and the algorithm developed. Finally, the algorithm is tested on a case study to analyse a kinetic shading system.
Abbreviations: DSF: Dynamic Shading File; EDSM: Equivalent Dynamic Shading Model; EMS: Energy Management System; ESSM: Equivalent Static Shading Model; Gf: Incident irradiance; Gf max: Incident irradiance threshold; PV: Photovoltaic; ST1/2/3: State 1/2/3; SSM: Static Shading Model; SF: Sunlit Fraction; SSF: Static Shading File; To: Outdoor temperature; To max 1/2: Outdoor temperature threshold 1/2; Tsol: Solar transmittance |
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| AbstractList | This paper proposes an innovative approach to analyse the energy behaviour of complex kinetic shading systems. Although several studies have analysed this topic, many are focused only on certain aspects or on simple shading systems due to a lack of tools for running reliable energy simulations on complex systems. This study aims to develop and validate a tool based on Python and EnergyPlus that can consider the continuous nature of the energy simulation and analyse complex kinetic systems. Simply providing an EnergyPlus model and a model of the shading configurations, the algorithm provides as output a comparison sheet to evaluate the performance of the system. The paper provides a description of the tools and studies focused on this topic; subsequently, a methodological insight is presented to explain the workflow, its validation, and the algorithm developed. Finally, the algorithm is tested on a case study to analyse a kinetic shading system.
Abbreviations: DSF: Dynamic Shading File; EDSM: Equivalent Dynamic Shading Model; EMS: Energy Management System; ESSM: Equivalent Static Shading Model; Gf: Incident irradiance; Gf max: Incident irradiance threshold; PV: Photovoltaic; ST1/2/3: State 1/2/3; SSM: Static Shading Model; SF: Sunlit Fraction; SSF: Static Shading File; To: Outdoor temperature; To max 1/2: Outdoor temperature threshold 1/2; Tsol: Solar transmittance This paper proposes an innovative approach to analyse the energy behaviour of complex kinetic shading systems. Although several studies have analysed this topic, many are focused only on certain aspects or on simple shading systems due to a lack of tools for running reliable energy simulations on complex systems. This study aims to develop and validate a tool based on Python and EnergyPlus that can consider the continuous nature of the energy simulation and analyse complex kinetic systems. Simply providing an EnergyPlus model and a model of the shading configurations, the algorithm provides as output a comparison sheet to evaluate the performance of the system. The paper provides a description of the tools and studies focused on this topic; subsequently, a methodological insight is presented to explain the workflow, its validation, and the algorithm developed. Finally, the algorithm is tested on a case study to analyse a kinetic shading system.Abbreviations: DSF: Dynamic Shading File; EDSM: Equivalent Dynamic Shading Model; EMS: Energy Management System; ESSM: Equivalent Static Shading Model; Gf: Incident irradiance; Gf max: Incident irradiance threshold; PV: Photovoltaic; ST1/2/3: State 1/2/3; SSM: Static Shading Model; SF: Sunlit Fraction; SSF: Static Shading File; To: Outdoor temperature; To max 1/2: Outdoor temperature threshold 1/2; Tsol: Solar transmittance |
| Author | Carlucci, Francesco Fiorito, Francesco Hensen, Jan L.M. Loonen, Roel C.G.M. |
| Author_xml | – sequence: 1 givenname: Francesco orcidid: 0000-0001-5571-8229 surname: Carlucci fullname: Carlucci, Francesco email: francesco.carlucci@poliba.it organization: Polytechnic University of Bari – sequence: 2 givenname: Roel C.G.M. orcidid: 0000-0001-6101-1449 surname: Loonen fullname: Loonen, Roel C.G.M. organization: Eindhoven University of Technology – sequence: 3 givenname: Francesco orcidid: 0000-0002-4554-738X surname: Fiorito fullname: Fiorito, Francesco organization: Polytechnic University of Bari – sequence: 4 givenname: Jan L.M. orcidid: 0000-0002-7528-4234 surname: Hensen fullname: Hensen, Jan L.M. organization: Eindhoven University of Technology |
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| SubjectTerms | Abbreviations Algorithms building performance simulation Complex systems Dynamic shading Energy management energy modelling Equivalence Irradiance kinetic shading Morphing Performance evaluation Photovoltaic cells responsive envelopes Shading shape morphing Simulation Workflow |
| Title | A novel approach to account for shape-morphing and kinetic shading systems in building energy performance simulations |
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