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BIM, sustainability and FIDIC contracts in developing countries: Finding the nexus
Co-Author – Barasa Ongeti, FIDIC CCM Kenya
Barasa acts as the contracts manager for Raxio Group, a firm that builds and operates a network of tier III carrier-neutral data centres in Africa. He has previously been in the contract consultancy space, where he acted as the contracts administrator for contractors engaged in projects of varying complexity and magnitude from ports and water treatment plants to roads and bridges.
He is a young professional with a civil engineering background. He is accredited by FIDIC Credentialing Limited (FCL) as a FIDIC Certified Contract Manager. He continues his professional development in the fields of design, construction, contract administration and project management of civil infrastructure projects. Always eager to learn, Barasa likes to engage with others on topical issues in the construction industry.
Co-Author – Wafaa Balla Beshir Ahmed, PMP, PMI-RMP, FIDIC CCM
Wafaa is a civil engineer, specializing in contracts engineering and administration and is the contracts section head at TEKNO Consultancy, a leading consultancy firm in Sudan.
Wafaa has been involved in FIDIC activities since 2013. She is a civil engineering graduate from Khartoum University, Sudan. She has been awarded a Project Management Professional Certificate and the Risk Management Professional Certificate from the Project Management Institute (PMI), attended many professional, academic and professional training courses and workshops and is a regular attendee at FIDIC Global Infrastructure Conferences. Recently, she was accredited by FIDIC Credentialing Limited (FCL) as a FIDIC Certified Contract Manager.
She has also been involved in different community development initiatives, with special concentration on the role of the engineer in community and life improvement.
One of the three key values espoused by FIDIC and its member associations across the globe is “to promote sustainability in the infrastructure industry”. Sustainability has been a topic of discourse with varied definitions, more so in recent years. A prevalent definition of sustainability is that attributed to UN World Commission on Environment and Development (UNCED) in the 1987 Brundtland Report, whih states that the aim of sustainable development is:
“…to ensure that it meets the needs of the present without compromising the ability of future generations to meet their own needs.” 16
It is generally agreed that there is limited time to reverse the potential damage that is caused by how we have been historically extracting resources from our planet and using them for development. Specifically, the infrastructure industry has been viewed as one of the sectors with significant consumption of raw materials and natural resources. The World Green Building Council reports that the construction industry generates an estimated 39% of the world’s carbon emissions. What tools can be used to reverse this?
In recent years, the use of Building Information Modelling (BIM) has emerged as a useful tool that helps the sector to address sustainability issues within the construction industry. While most industry players agree that BIM is now a central part of the construction industry, a universal definition of BIM is hard to come by. One widespread understanding is that BIM is a process to generate and manage digital information related to the geometrical, spatial, and functional characteristics throughout the lifecycle of a construction project.
The use of BIM is typically deployed throughout project lifecycle phases - design and specification phase, construction and manufacturing and occupancy, maintenance and operation design phase.
At its most elementary level, BIM is concerned with three-dimensional representations of buildings and structures on a graphical user interface. At more advanced levels, there are additional capabilities that have been integrated into BIM and these capabilities are the so-called ’dimensions’ 17 . BIM entails:
3D is concerned with Spatial and visual representation.
4D is concerned with Scheduling and time aspects.
5D is concerned with cost and value.
6D is concerned with sustainability aspects and lifecycle data.
7D is concerned with Facility Management applications.
The topic of this article is the “6 th Dimension” which relates to lifecycle management data and sustainability aspects of construction.
It is well known that the implementation of sustainability requires more detailed analysis, and so also means there is proper information handling and well-managed digitalisation for the construction process. That is exactly where BIM comes into play.
• BIM allows advanced analysis, thus assists designers in achieving sustainable development goals, by creating energy-efficient buildings with a healthy indoor climate.
• BIM allows better coordination between designers and clients and assists them to study multiple solutions and design options.