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Development of a 3D Digital Model of End-of-Service-Life Buildings for Improved Demolition Waste Management through Automated Demolition Waste Audit

Omer, Muhammad; Wang, Yong C.; Quintana Roma, Mikel; Bedrich, Stanislav; Nežerka, Václav; Ferriz-Papi, Juan; Moros Montanes, Jesus J. Moros; Diez Ortiz, Ines

Development of a 3D Digital Model of End-of-Service-Life Buildings for Improved Demolition Waste Management through Automated Demolition Waste Audit Thumbnail


Authors

Muhammad Omer

Yong C. Wang

Mikel Quintana Roma

Stanislav Bedrich

Václav Nežerka

Jesus J. Moros Moros Montanes

Ines Diez Ortiz



Abstract

This paper presents the development of a 3D digital model of end-of-service-life buildings to facilitate a step change in preparation of pre-demolition protocols that can eliminate problems of inadequate documentation and extensive time spent in preparing pre-demolition audits. The 3D digital model consists of the following four main components: (i) digitization of paper-based drawings and their conversion to CAD; (ii) automated generation of a 3D digital model from CAD; (iii) corrections to the 3D digital model to account for changes in the lifetime of a building; (iv) a sub-model for performing pre-demolition audit. This paper proposes the innovative approaches of incorporating a minimal amount of human intervention to overcome numerous difficulties in automated drawing analysis, application of augmented reality (AR) in corrections to the 3D digital model, and data compatibility for pre-demolition audit. These processes are demonstrated using one building as case study. Using the digital model, a pre-demolition audit can be prepared in minutes rather than the many days required in current practice without a digital model. The accurate quantification of the quantities and locations of different demolition waste materials and products in buildings to be demolished will enable a systematic and quantitative evaluation of potentials of material and product reuse and eliminate contamination of different demolition waste streams (which may contain hazardous waste), which is the main cause of environmental degradation and downcycling of demolition waste materials.

Citation

Omer, M., Wang, Y. C., Quintana Roma, M., Bedrich, S., Nežerka, V., Ferriz-Papi, J., …Diez Ortiz, I. (2024). Development of a 3D Digital Model of End-of-Service-Life Buildings for Improved Demolition Waste Management through Automated Demolition Waste Audit. Environments, 11(7), 138. https://doi.org/10.3390/environments11070138

Journal Article Type Article
Acceptance Date Jun 24, 2024
Online Publication Date Jun 29, 2024
Publication Date Jun 29, 2024
Deposit Date Jul 3, 2024
Publicly Available Date Jul 8, 2024
Journal Environments
Print ISSN 2076-3298
Publisher MDPI
Peer Reviewed Peer Reviewed
Volume 11
Issue 7
Pages 138
DOI https://doi.org/10.3390/environments11070138
Keywords construction and demolition waste; digital modeling; artificial intelligence; augmented reality; pre-demolition audit; end-of-service-life building; circular economy; sustainable demolition