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Amadi, C, Carrillo, P and Tuuli, M (2019) PPP projects: improvements in stakeholder management. Engineering, Construction and Architectural Management, 27(02), 544–60.

Huo, X, Yu, A T W, Zezhou, W and Jayantha, W M (2019) Site planning and design of green residential building projects: case studies in China. Engineering, Construction and Architectural Management, 27(02), 525–43.

Hyung, W, Kim, S and Jo, J (2019) Improved similarity measure in case-based reasoning: a case study of construction cost estimation. Engineering, Construction and Architectural Management, 27(02), 561–78.

Johari, S and Jha, K N (2019) Challenges of attracting construction workers to skill development and training programmes. Engineering, Construction and Architectural Management, 27(02), 321–40.

Li, X, Wang, X and Lei, L (2019) The application of an ANP-Fuzzy comprehensive evaluation model to assess lean construction management performance. Engineering, Construction and Architectural Management, 27(02), 356–84.

Mellado, F, Lou, E C and Becerra, C L C (2019) Synthesising performance in the construction industry. Engineering, Construction and Architectural Management, 27(02), 579–608.

Nwaogu, J M, Chan, A P, Hon, C K and Darko, A (2019) Review of global mental health research in the construction industry. Engineering, Construction and Architectural Management, 27(02), 385–410.

Salvado, F, Almeida, N and Vale e Azevedo, A (2019) Aligning financial and functional equivalent depreciations rates of building assets. Engineering, Construction and Architectural Management, 27(02), 441–57.

Wang, X, Shi, L, Wang, B and Kan, M (2019) A method to evaluate credit risk for banks under PPP project finance. Engineering, Construction and Architectural Management, 27(02), 483–501.

Yevu, S K and Yu, A T W (2019) The ecosystem of drivers for electronic procurement adoption for construction project procurement. Engineering, Construction and Architectural Management, 27(02), 411–40.

Zarghami, S A and Gunawan, I (2019) A domain-specific measure of centrality for water distribution networks. Engineering, Construction and Architectural Management, 27(02), 341–55.

Zhou, S, Ng, S T, Lee, S H, Xu, F J and Yang, Y (2019) A domain knowledge incorporated text mining approach for capturing user needs on BIM applications. Engineering, Construction and Architectural Management, 27(02), 458–82.

Zohrehvandi, S, Vanhoucke, M, Soltani, R and Javadi, M (2019) A reconfigurable model for implementation in the closing phase of a wind turbines project construction. Engineering, Construction and Architectural Management, 27(02), 502–24.

• Type: Journal Article
• Keywords: Optimization; Project management; Construction planning; Scheduling; Queuing system; Project closing; Activities overlapping; Reconfigurable model; Renewable project;
• ISBN/ISSN: 0969-9988
• URL: https://doi.org/10.1108/ECAM-01-2019-0065
• Abstract:
  The purpose of this paper is to introduce a reconfigurable model that is a combination of a schedule model and a queuing system M/M/m/K to reduce the duration of the wind turbine construction project closure phase and reduce the project documentation waiting time in the queue. This research was implemented in a wind farm project. The schedule model deals with reducing the duration of the turbines closure phase by an activity overlapping technique, and the queuing system deals with reducing the turbine documentation waiting time in the queue, as well as reducing the probability of server idleness during the closure phase. After the implementation of the model, the obtained results were compared to those of similar previously conducted projects in terms of duration, and the model was found effective. Project closure is an important and mandatory process in all projects. More often than not, this process is faced with problems including prolonged project duration, disputes, lawsuits, and also in projects like the implementation of wind farms, a queue of documents at closing stage may also cause difficulties in project closure phase. The contributions of this research are twofold: first, a combination of project management and queuing system is presented, and second, a reconfigurable model is introduced to enhance the performance and productivity of the closure phase of the project through reducing the implementation time and reducing the turbine documentation waiting time in the queue, as well as reducing the probability of server idleness during the closure phase of the wind farm project.