The potential use of BIM to aid construction waste minimalisation

It is widely acknowledged that the construction industry has a major impact on the environment, both in terms of resource consumption and waste production. The construction industry is responsible for producing a whole variety of different onsite wastes; the amount and type of which depends on factors such as the stage of construction, type of construction work, direct or indirect stakeholders’ design change contribution, and practices throughout the project lifecycle. A number of construction waste minimisation (CWM) techniques and tools are currently available to assist contractors to divert waste away from landfill. However, literature reveals that there are insufficient techniques and tools for reducing construction waste during the design and procurement stages. The last few years saw the emergence of Building Information Modelling (BIM) techniques, which can be adopted to improve sustainable construction performance. BIM is a maturing modelling philosophy, which has been applied to several building-related functions such as visualising designs, automating quantity takeoffs, checking compliance with regulations, and scheduling construction processes. Furthermore, BIM, as a real-time interactive and collaborative communication system, has the potential to help project stakeholders to collaboratively attain waste minimisation for sustainable construction and building throughout design, construction and throughout the lifecycle by improving building construction performance. Hence, this paper, which is part of an ongoing doctoral study, explores the potential application of BIM to design out waste. An in-depth literature review was conducted to provide a foundation for the doctoral study that aims to investigate the use of BIM as a potential platform for building design waste minimisation. The paper explores construction waste origins and causes, current waste reduction practices; examines current industry BIM practices and investigates BIM tools for sustainable project construction and management; and identifies the knowledge gaps in existing literature that pave the way for the subsequent data collection stages.

[1]  Rawshan Ara Begum,et al.  Attitude and behavioral factors in waste management in the construction industry of Malaysia , 2009 .

[2]  Hannu Penttilä Early Architectural Design and BIM , 2007 .

[3]  Vivian W. Y Tam,et al.  Implementation of environmental management in the Hong Kong construction industry , 2002 .

[4]  Andrew R.J. Dainty,et al.  Towards improved construction waste minimisation: a need for improved supply chain integration? , 2004 .

[5]  Lauri Koskela,et al.  Management of production in construction: A theoretical view , 1999 .

[6]  Liang Yong,et al.  Application of integrated GPS and GIS technology for reducing construction waste and improving construction efficiency , 2005 .

[7]  M Osmani,et al.  Architects' perspectives on construction waste reduction by design. , 2008, Waste management.

[8]  C. M. Tam,et al.  Mapping Approach for Examining Waste Management on Construction Sites , 2004 .

[9]  Arto Kiviniemi,et al.  Requirements management interface to building product models , 2005 .

[10]  Charles M. Eastman,et al.  The Rosewood experiment — Building information modeling and interoperability for architectural precast facades , 2010 .

[11]  Mustafa Emre,et al.  THE QUEST FOR INTEGRATED DESIGN SYSTEM: A BRIEF SURVEY OF PAST AND CURRENT EFFORTS , 2007 .

[12]  Andrew N. Baldwin,et al.  Planning building design by simulating information flow , 1998 .

[13]  C F Mahler,et al.  Reverse logistics in the Brazilian construction industry. , 2009, Journal of environmental management.

[14]  Andrew N. Baldwin,et al.  Designing to encourage waste minimisation in the construction industry , 2000 .

[15]  Clodagh McGrath,et al.  Waste minimisation in practice , 2001 .

[16]  Li yin Shen,et al.  Managing construction waste on‐site through system dynamics modelling: the case of Hong Kong , 2008 .

[17]  Andrew D.F. Price,et al.  Architect and contractor attitudes to waste minimisation , 2006 .

[18]  Paul S Phillips,et al.  Waste management issues for the UK ready-mixed concrete industry , 2001 .

[19]  Charles M. Eastman,et al.  BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors , 2008 .

[20]  Eddy Krygiel,et al.  Green BIM: Successful Sustainable Design with Building Information Modeling , 2008 .

[21]  Umit Isikdag,et al.  Handbook of Research on Building Information Modeling and Construction Informatics: Concepts and Technologies , 2009 .

[22]  Helmut Rechberger,et al.  The contemporary European copper cycle: waste management subsystem , 2002 .

[23]  Ricardo Jardim-Goncalves,et al.  Building information modeling and collaborative working environments , 2010 .

[24]  Andrew N. Baldwin,et al.  Modelling design information to evaluate pre-fabricated and pre-cast design solutions for reducing construction waste in high rise residential buildings , 2008 .

[25]  Ann T. W. Yu,et al.  On-site sorting of construction and demolition waste in Hong Kong , 2001 .

[26]  Qian Xu,et al.  E-commerce system simulation for construction and demolition waste exchange , 2006 .

[27]  Lucio Soibelman,et al.  Material Waste in Building Industry: Main Causes and Prevention , 2002 .

[28]  Carlos T. Formoso,et al.  Method for Waste Control in the Building Industry , 1999 .

[29]  Martin Loosemore,et al.  A theory of waste behaviour in the construction industry , 2001 .

[30]  Gian Andrea Blengini,et al.  Resources and waste management in Turin (Italy): the role of recycled aggregates in the sustainable supply mix , 2010 .

[31]  Mark Smithers,et al.  Implementing a waste management plan during the construction phase of a project: a case study , 1998 .

[32]  Hannu Penttilä,et al.  Describing the changes in architectural information technology to understand design complexity and free-form architectural expression , 2006, J. Inf. Technol. Constr..