S Eleftheriadis scite author profile

The continuous developments of Building Information Modelling (BIM) in Architecture, Engineering and Construction (AEC) industry supported by the advancements in material resourcing and construction processes could offer engineers the essential decision-making procedures to leverage the raising demands for sustainable structural designs. This article brings together the theory of Life Cycle Assessment (LCA) and the capabilities of BIM to survey the current developments in the energy efficiency of structural systems. In addition, the article explores the engineering dimensions of common decision-making procedures within BIM systems including optimisation methods, buildability limitations and safety and code compliance checks. The research presents critical expositions in both the engineering and sustainable energy domains. The article then argues that future innovations in the sustainable decision-making of buildings' structures would require BIM-integrated workflows in order to facilitate the conflicting nature of both energy efficient and engineering performance indexes. Finally, the study puts forward a series of research guidelines for a consolidated decision paradigm that utilises the capabilities of BIM within the engineering and sustainable energy domains in a synergistic manner.

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Regularity and optimisation practice in steel structural frames in real design cases

Dunant

Drewniok

Eleftheriadis³

et al. 2018

Resources, Conservation and Recycling

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BIM-embedded life cycle carbon assessment of RC buildings using optimised structural design alternatives

Eleftheriadis

Duffour

Mumovic

2018

Energy and Buildings

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Investigating relationships between cost and CO2 emissions in reinforced concrete structures using a BIM-based design optimisation approach

Eleftheriadis

Duffour

Greening

et al. 2018

Energy and Buildings

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Participatory decision-support model in the context of building structural design embedding BIM with QFD

Eleftheriadis

Duffour

Mumovic

2018

Advanced Engineering Informatics

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S Eleftheriadis

Life cycle energy efficiency in building structures: A review of current developments and future outlooks based on BIM capabilities

Regularity and optimisation practice in steel structural frames in real design cases

BIM-embedded life cycle carbon assessment of RC buildings using optimised structural design alternatives

Investigating relationships between cost and CO2 emissions in reinforced concrete structures using a BIM-based design optimisation approach

Participatory decision-support model in the context of building structural design embedding BIM with QFD

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