Reusable rate of wooden structural members and its optimization determined by application programming interface (API)
Carbon is stored within the structure of wood; however, burnt or landfilled wooden components releases carbon back into the atmosphere. Increasing the reusability rate of wooden components potentially prolongs carbon storage in wood. This study investigated the reusability rate of wooden brace membe...
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| Veröffentlicht in: | Wood Material Science & Engineering Jg. 20; H. 6; S. 1216 - 1226 |
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| Format: | Journal Article |
| Sprache: | Englisch Japanisch |
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Abingdon
Taylor & Francis
19.08.2024
Informa UK Limited Taylor & Francis Ltd |
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| ISSN: | 1748-0272, 1748-0280 |
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| Abstract | Carbon is stored within the structure of wood; however, burnt or landfilled wooden components releases carbon back into the atmosphere. Increasing the reusability rate of wooden components potentially prolongs carbon storage in wood. This study investigated the reusability rate of wooden brace members from a high-rise wooden building by using an application programming interface (API) integrated with Revit. This study demonstrated a method for improving the reusability rate by optimizing the brace cross-sections. The API assists designers in determining the reusability rate early in the design process by computing and representing reusability rates based on the designated converted members. Optimization enhanced the reusability of specific sections, with a reusability rate of approximately 80% achieved for the optimized cross-section area of 28.0 × 51.6 cm
2
compared with 62% for the benchmark cross-section area of 38 × 38 cm
2
. Additionally, a preliminary structural assessment of the optimized wooden brace sections was conducted, which confirmed that the optimization did not affect the structural integrity. Consequently, selecting optimized wooden brace sections with high reusability rates by using the API extends the service life of wood and prolongs carbon sequestration, thereby mitigating carbon dioxide emission into the atmosphere. |
|---|---|
| AbstractList | Carbon is stored within the structure of wood; however, burnt or landfilled wooden components releases carbon back into the atmosphere. Increasing the reusability rate of wooden components potentially prolongs carbon storage in wood. This study investigated the reusability rate of wooden brace members from a high-rise wooden building by using an application programming interface (API) integrated with Revit. This study demonstrated a method for improving the reusability rate by optimizing the brace cross-sections. The API assists designers in determining the reusability rate early in the design process by computing and representing reusability rates based on the designated converted members. Optimization enhanced the reusability of specific sections, with a reusability rate of approximately 80% achieved for the optimized cross-section area of 28.0 × 51.6 cm
2
compared with 62% for the benchmark cross-section area of 38 × 38 cm
2
. Additionally, a preliminary structural assessment of the optimized wooden brace sections was conducted, which confirmed that the optimization did not affect the structural integrity. Consequently, selecting optimized wooden brace sections with high reusability rates by using the API extends the service life of wood and prolongs carbon sequestration, thereby mitigating carbon dioxide emission into the atmosphere. Carbon is stored within the structure of wood; however, burnt or landfilled wooden components releases carbon back into the atmosphere. Increasing the reusability rate of wooden components potentially prolongs carbon storage in wood. This study investigated the reusability rate of wooden brace members from a high-rise wooden building by using an application programming interface (API) integrated with Revit. This study demonstrated a method for improving the reusability rate by optimizing the brace cross-sections. The API assists designers in determining the reusability rate early in the design process by computing and representing reusability rates based on the designated converted members. Optimization enhanced the reusability of specific sections, with a reusability rate of approximately 80% achieved for the optimized cross-section area of 28.0 × 51.6 cm2 compared with 62% for the benchmark cross-section area of 38 × 38 cm2. Additionally, a preliminary structural assessment of the optimized wooden brace sections was conducted, which confirmed that the optimization did not affect the structural integrity. Consequently, selecting optimized wooden brace sections with high reusability rates by using the API extends the service life of wood and prolongs carbon sequestration, thereby mitigating carbon dioxide emission into the atmosphere. |
| Author | Yeh, Chia-Lung Tsai, Meng-Ting |
| Author_xml | – sequence: 1 givenname: Chia-Lung surname: Yeh fullname: Yeh, Chia-Lung organization: Kyushu University – sequence: 2 givenname: Meng-Ting surname: Tsai fullname: Tsai, Meng-Ting email: tsai@mail.ntust.edu.tw organization: National Taiwan University of Science and Technology |
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| Cites_doi | 10.3390/su10020561 10.3390/coatings12010055 10.13073/FPJ-D-14-00047 10.1080/17480272.2023.2199018 10.1016/j.egyr.2021.06.013 10.1016/j.scs.2017.06.013 10.3390/buildings12050601 10.1016/j.autcon.2018.05.011 10.2208/proer.33.249 10.3130/aija.66.59_4 10.1007/978-3-030-18072-0_83 10.1016/j.scs.2017.12.017 10.1016/j.engstruct.2017.11.047 10.1515/9783035618860 10.2737/FPL-GTR-39 10.1007/978-3-030-00220-6_97 10.1016/j.jclepro.2022.133083 10.3390/su10061718 10.1016/j.proeng.2016.08.225 10.1017/S1359135514000268 10.1038/s41893-022-00887-8 10.1016/j.enbuild.2021.111387 10.3130/aije.68.1_2 10.1080/17480272.2022.2070865 |
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| SubjectTerms | Application programming interface Atmosphere Carbon dioxide Carbon dioxide emissions Carbon sequestration Cross-sections High rise buildings High-rise wooden building low-rise wooden building Optimization reusability rate Service life Structural integrity Structural members structure assessment timber |
| Title | Reusable rate of wooden structural members and its optimization determined by application programming interface (API) |
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