Abstract
Current approaches for the reduction of carbon emissions in buildings are often predicated on the integration of renewable technologies into building projects. Building integrated photovoltaics (BIPV) is one of these technologies and brings its own set of challenges and problems with a resulting mutual articulation of this technology and the building. A Social Construction of Technology (SCOT) approach explores how negotiations between informal groups of project actors with shared interests shape the ongoing specification of both BIPV and the building. Six main groups with different interests were found to be involved in the introduction of BIPV (Cost Watchers, Design Aesthetes, Green Guardians, Design Optimizers, Generation Maximizers and Users). Their involvement around three sets of issues (design changes from lack of familiarity with the technology, misunderstandings from unfamiliar interdependencies of trades and the effects of standard firm procedure) is followed. Findings underline how BIPV requires a level of integration that typically spans different work packages and how standard contractual structures inhibit the smooth incorporation of BIPV. Successful implementation is marked by ongoing (re-)design of both the building and the technology as informal fluid groups of project actors with shared interests address the succession of problems which arise in the process of implementation.
Highlights
Renewable energy technologies are seen to be a key element in the reduction of carbon emissions
Given that the focus of this research is on the relation between Building integrated photovoltaics (BIPV) and the building, this paper focuses on the identification of relevant social groups and begins the process of understanding the mechanisms of problem identification and resolution which arise
All interviewees agreed that explicit understandings of the requirements and needs of the different parties involved in the project are an important determinant of success in the inclusion of BIPV
Summary
Renewable energy technologies are seen to be a key element in the reduction of carbon emissions. Much attention has been given to the development of renewable technologies and end users (Green, 2004; Lees and Sexton, 2013). Relatively little research has explored their incorporation into buildings during construction. Building integrated photovoltaics (BIPV) technology is a renewable technology that incorporates aesthetic function with reduction of carbon emissions and as such has great potential in commercial buildings. The bespoke nature of the technology and the knock-on effects of its incorporation into a building project pose major challenges for construction professionals. A socio-technical approach is adopted to explore the incorporation of BIPV into the design and construction of commercial buildings. The analysis documents the different interests and issues shaping the ongoing co-design of both the technology and the building
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