From Theoretical to Practical Competence on Health and Safety

1. Introduction

Construction is a dangerous industry because of its high rate of fatal accidents and serious injuries (Teo et al., 2005). Reducing the risks in this industry is a high priority of the public authorities and the social partners of trade unions and employers’ organisations in Norway (Løken and Stokke, 2009).

Newly educated engineers quickly become managers that are required by law to ensure the health and safety (H&S) of employees (Løken and Stokke, 2009). Thus, the competence among construction engineers is critical to ensure H&S in the industry.

Earlier research have identified a lack of focus on H&S in the learning outcomes of educational programmes (Åsgård et al., 2017), and a gap between employers’ expectations and their evaluation of the H&S competence among newly educated construction engineers (Danielsen et al., 2017). This study uses a stakeholder perspective to gain input from key actors in the industry – the regional safety representatives (RSRs) – to identify possible improvements in the engineering education that can contribute to a healthier and safer construction industry.

2. Theoretical background

3. Methodology

The findings reported in this paper are part of a larger research project aimed at ensuring sufficient H&S competence among construction engineers in Norway. A literature search was conducted as descripted by Arksey and O’Malley (2007) to get an overview of earlier research. As the studied area has not been subject to much earlier research, semi-structured interviews with key stakeholders were considered a favourable method to gather the data needed. The stakeholders chosen for the purposes of the part of the study presented in this paper are the regional safety representatives (RSRs) in the construction industry.

4. Results

H&S work requires both theoretical and practical competence. A major concern among the informants is what they perceive to be lack of practical skills among engineers. The informants believe that without the combination of theoretical and practical competence, engineers risk making decisions that may look good on paper, but are not practical in real life. They also risk introducing new safety guidelines that lack legitimacy and encounter resistance among workers.

Some statements from the informants regarding the need for practical H&S competence are listed in Table 1.

The improvements in education of construction engineers suggested by the informants in this investigation mostly include some form of closer integration between education and the industry. Possible ways of achieving this will be discussed in the following section.

5. Discussion

A profession needs to be based upon scientific expertise and a professional body of knowledge acquired through higher education (Ressler, 2013). However, a profession cannot exist without its professional practice (Brante, 2011). The RSRs point to the academic drift in education of engineers as a major obstacle in improving H&S in construction. Even though some efforts have been made to strengthen the practice elements in education, the RSRs believe these efforts have not been sufficient to enable future engineers to help improving H&S. Without practical understanding of the work processes of a construction site, the RSRs believe it is difficult for the engineers to become competent practitioners of H&S work. They argue that a closer cooperation between industry and education is necessary to improve the practical H&S skills of construction engineers.

There are many possible ways to bridge the gap between practice and theory. Two main strategies seem to be evident: (1) bringing the industry into education and (2) bringing education into the industry. Some options will be discussed in the following.

One way of bringing the industry into education is to invite practitioners into the educational setting as guest lecturers. This (partly) established practice could be improved by making input from practitioners more systematic and frequent. For this option to be realistic there has to be an interest among the actors in the industry itself to contribute more to education. The expressed willingness to contribute as guest lecturers by many of the informants in this study indicates that this could be an interesting option to pursue.

Hiring practitioners as lecturers is another possibility. An ongoing debate in Norway is the possible new title in academia of practice professor to attract professionals with substantial work experience into teaching and research positions. This would require a change in the recruitment policies of academia to allow practical experience to outweigh academic credentials when hiring for academic positions. How to ensure that the practice professors do not lose touch with the industry over time must also be considered. It is still uncertain whether the position as practice professor will indeed be realised, and if such positions will be able to attract competent practitioners.

A third option is to let the industry provide students with relevant assignments. This will let students move beyond the level of experimentation and give them experience with real-life cases. To ensure that both parties benefit from the cooperation, this approach will require a close collaboration between the industry and educational institutions to assure the quality and relevance of the assignments provided, and to make sure that the students are qualified to handle them.

Turning to the strategy of bringing education into the industry, visits to construction sites is one option already being practiced. There are, however, some challenges in organising such visits, especially when many students are involved. Another weakness is that a visit is short and can never give the same insight as doing the actual work, as many of the informants also emphasise.

Another alternative is to make practical work experience from construction sites mandatory in education of construction engineers. Today, some educational institutions offer work practice as elective subjects. However, work practice is currently not mandatory at the bachelor level, and the content of the work practice is often weakly specified.

One way to introduce practical work requirements into education would be to establish cooperation between educational institutions and the industry on summer jobs. Norwegian students often work during summer break; however, many of the jobs available are not relevant for their future professions. Summer job cooperation could prove to be a win–win for both industry and students. The contractors gain easy access to substitutes, while their regular employees are on vacation, and opportunity to assess potential future employees. The students gain relevant work experience, and develop a personal network in the industry valuable to their future employability. Such cooperation would involve the development of a framework of requirements on what kind of work practice meets the criteria of approval.

Developing an apprenticeship programme, or mandatory subjects that include industrial training, is another option. At the Shaqra Universtity in Saudi Arabia, they try to reduce the gap between theoretical knowledge and field experience through industrial training. 90 per cent of the participants consider this kind of industrial training crucial for engineers according to an evaluation of this programme (Alsayyari and Hafez, 2016). Such established programmes in other countries could constitute learning possibilities for education of construction engineers in Norway.

Introducing more practice into the education would, however, not go undebated, and can be done at the expense of theoretical knowledge. This could, according to Ressler (2013), erode the scientific base of the profession. However, a lot of other professions and semi-professions in Norway – such as physicians, nurses and teachers – require work practise as part of their education. Instead of regarding more practice as a potential threat to the professional status of engineers, it could be considered an opportunity to strengthen the profession.

A stronger emphasis on H&S in education could be an important expansion of the professional body of knowledge of construction engineers, and thus, the scientific expertise that a profession needs to be based upon. In addition, a profession needs not only expertise but also a professional ideology to justify its societal position. However, the engineering profession has been accused of having a weak ethical foundation, where efficiency seems to be the only professional value of importance (Lohne et al., 2017; Ressler, 2013). Hence, an increased professional commitment to H&S could not only strengthen the professional expertise of construction engineers, but also the ethical reputation and value base of the profession.

6. Conclusions

The aim of this research project has been to identify possible ways to improve H&S in the construction industry by focusing on the education of construction engineers. The study used a stakeholder perspective to gain input from the RSRs as key H&S actors in the industry. According to the informants, construction engineers need to move from predominantly theoretical to more practical H&S competence to contribute to a healthier and safer industry in the future.

Two main strategies for a closer integration of education and industry have been identified: (1) bringing the industry into education and (2) bringing education into the industry. Some options have been discussed in this paper, though more exist, and they all need to be developed further to be seriously considered. Nevertheless, bridging the gap between theoretical and practical H&S competence and a closer integration of education and industry can prove to be important to improve H&S in the industry and to strengthen the engineering profession.