Standardization and Industrialized Construction of Special Purpose Buildings

3.1. Standardization and industrialized building of special purpose buildings

Standardization is a concept including “the extensive use of components, methods or processes with regularity, repetition and a successful history” (Pasquire and Gibb, 2002, p. 3). Standardization is often also associated with processes, suggesting “not necessarily functionally or aesthetically distinct products from more conventional construction, but more routes toward the attainment of stated goals” (Craig et al., 2000, p. 3). Subsequent similar projects can profit by re-using the same processes, functionalities, design or plans from previous projects. Standardization is often a prerequisite for a high degree of industrialized building, where parts or modules are produced in factories and being assembled on site (Berg, 2005; Berg, 2008). Buildings with many repetitive units, such as hotels, student housing, hospitals and prisons are considered as suitable for modular building (Kamali and Hewage, 2016; Grant, 2013). As mentioned in Chapter 1, special purpose buildings are properties with unique features appropriate for one type of use (US Legal, 2018). Research on the standardization of special purpose buildings is limited, as standardization is perceived as incompatible with the unique character of special purpose buildings, where every construction project has to be addressed in an individual way (Moum et al., 2016). Nevertheless, standardization of processes and technical solutions, as well as reduction of variation is possible without compromising the individuality of each building (ibid.).

3.2. The effects of standardization

Standards make the technical state of the art accessible for the broad market (Blind et al., 2011), reduce variation in product quality (Jones and Hudson, 1996), ensure safety, environmental and social standards, and allow collaboration by different suppliers (Viardot et al., 2016). Technological standards lead to innovative efficiency and productivity in knowledge creation (Spulber, 2013). In the construction industry, standardization can contribute to improved performance (Pasquire and Gibb, 2002). Among positive effects arising from standardization and pre-assembly are better planning and control, improved quality, an improved health and safety environment, higher predictability and the possibility for increased profitability through reduced costs, shorter lead times, less defects and higher productivity (Pasquire and Gibb, 2002). Dullness, lack of innovativeness (ibid.), failure to meet individual needs of the users and a lack of flexibility (Craig et al., 2000) are downsides. When the standard is optimized through positive and negative experiences, standardization presents an opportunity for increased learning for future projects (Berg, 2008), e.g. by developing better tendering documentation based on the log of change request from previous projects.

Recent research by Økland et al. (2017) found mainly positive effects of standardization and modular construction of Norwegian prisons, including significantly reduced planning time through re-use of design and facilitated client/user participation. Parallelization of groundwork and module production shortens construction time. The standard facilitates learning from one project to the other (ibid.). Research also points toward a positive effect of modular building on project cost but somewhat limited by a shallow pool of contractors with experience of modular construction (ibid.).

4.1. Results from the group work

In the group sessions, the participants were given the instruction: “Discuss the topic of standardization and suggest other types of projects where standardization and/or modular construction can be of relevance.” Engaging discussions led to extensive answers to the topic and to interesting side results beyond the original question.

Nine groups named educational buildings having high potential for standardization, followed by office and administration buildings (mentioned by seven groups) and court houses (mentioned by six groups). Five groups each reported traffic control facilities, customs facilities and children’s homes. Other building types mentioned were governmental buildings, police stations, student accommodation and museums.

In addition, most of the groups also listed building elements with a potential for standardization. This is an interesting finding as it allows standardization of special purpose buildings on a more general level with standardized solutions for the whole portfolio. Figure 1 shows a full overview of the answers.

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Figure 1.

Summary of results: Building elements with potential for standardization

Most of the groups also suggested room types to be standardized. Figure 2 shows room types mentioned by more than one group. In addition, one group each mentioned treatment rooms, parking lots, special rooms (of repetitive type), dog stables (e.g. at police stations), traffic control halls, weight control functions, emergency control rooms, court rooms, dormitories, shooting ranges, bicycle parking and vestibules.

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Figure 2.

Summary of results: Room types with potential for standardization (room types mentioned by one group not included)

The results show that the project managers see potential for standardization and modular construction for a broad specter of special purpose buildings. They even mentioned highly individual building types, such as museums, which on first sight do not seem to be suitable for standardization. Suggestions include a high degree of standardization of more common building elements.

Statsbygg has completed two standardized prison projects by now, with shortened project time, achieving cost savings of around 20 per cent through standardization and industrial building, compared to the last prison project completed before standardization. Considering that Statsbygg manages buildings with an area of 2.9 million m² worth 22 billion NOK and has 120 ongoing construction projects, with a total expected investment volume of 7 billion NOK for 2018, even a more tentative saving of 10 per cent through standardization on a portfolio level would mean reduction of 700 million NOK per year.

Suggestions for standardization of buildings, building elements and room types show that project managers see potential for standardization of special purpose buildings, although with limitations (cf. Chapter 4.2). This is in accordance with the literature, and going beyond it by suggesting that even construction projects without many repetitive units can be standardized to a certain degree. The results from the workshop are used internally to prioritize building types where a process toward further standardization will be initiated.

4.2. Additional results from the group sessions

As an additional result from the group sessions, participants state several challenges with standardization:

1. Architectural challenges: Standardization should not limit the possibilities of the architect to develop a unique architecture of every building. Standardizing functions or parts of the building should not compromise the architectural expression of each building.

2. Acceptance challenges: Users of special-purpose buildings tend to consider their building as unique. Thus, a challenge is to make them accept that less unique parts can be standardized or built with modules. A good and accepted standard is developed in collaboration with the client and the user of the building.

3. Challenges toward the extent of the standard: Complete standardization can be difficult, but it might be broken down into appropriate levels. A standard has to take into account adaptation to real estate differences, which are setting prerequisites for the geometry of the building on site.

Other suggestions included standardization across sectors, the standardization of user equipment to allow for standardized interfaces, the establishment of a standard with built-in flexibility, and further standardization of processes. Group members also mentioned the reduction of variation within a building (e.g. concerning wall thickness), the collection of a “drop-down menu” for standard room types or the adaption of room sizes to standard module size.