Filters
cris logo
-
New search Filters
Select from list
Displayed from Show more
You have reached the maximum number of displayed search results.
All results displayed
No results are available for the search performed
Displayed from
You have reached the maximum number of displayed search results.
All results displayed
Loading results
Obtaining statistical data

International projects source: SICRIS

Enhanced Life-Cycle-Costing in wood construction by novel methods for service life planning (WoodLCC)

Edit
Researchers (1)
no. Code Name and surname Research area Role Period No. of publications
1.  50366  PhD Anna Malgorzata Sandak  Forestry, wood and paper technology  Head  2022 - 2024  256 
Organisations (1)
no. Code Research organisation City Registration number No. of publications
1.  3770  InnoRenew CoE Renewable Materials and Healthy Environments Research and Innovation Centre of Excellence  Izola  7233817000  2,771 
Abstract
WoodLCC will enable robust and precise life-cycle-costing (LCC) based on input from novel models for detailed service life performance specification for wooden components and buildings. The project has two hypotheses: 1) improved service life input data will enable more precise and robust LCC for wood-based products, resulting in significantly improved economic and environmental impact, and 2) LCC will find common acceptance only if reliable input data are available and complemented with knowledge about user expectations. Therefore, a holistic approach will be used to integrate service life data in LCC analysis instruments. The outcome will be the WoodLCC data platform. WoodLCC will use results from novel methods for detailed service life performance specification established through extensive past research on dose/response functions for exterior wood elements. WoodLCC’s novelty is the optimization of the LCC input data for wood-based building products. InnoRenew CoE project activities: InnoRenew CoE will deliver a demo plugin for BIM software for estimation of LCC that is adopted for the specific needs of timber structures. The service life simulation that is indispensable for reliable LCC analysis will be implemented at three levels of complexity. All levels will be objectively validated to determine the novel tool’s reliability and assure compatibility with real-life cases, with the overall objective to achieve a realistic service life scenario (RSLS) for timber structures and elements.
Confirmation required
Views history
Favourite