Project budget and schedule overruns are becoming critical challenges within the petroleum and chemical industry due to a sharp decline in the oil prices and the subsequent impact this has had on the global financial market. Although innovative project control systems (PCSs) are typically employed in this sector, experience reveals that such systems do not guarantee project success unless they are effectively implemented. The effective implementation of such systems should show financial governance and control, improved profit and financial forecasting, and the ability to forecast and mitigate negative cost impact. This study aims to identify, examine, and prioritize the enablers and barriers linked with successful implementation of PCS. A multicriteria model was used to collect, evaluate, and analyze data from petroleum and chemical firms in Saudi Arabia. A total of 9 enablers and 15 barriers were identified. The research revealed that skilled project team members and clear definition of roles and responsibilities are key enablers of successful PCS. The most critical barriers identified by this study were poor skills in scheduling and controlling along with a distrust of the control system. Other barriers identified include disparate control systems between owner and contractor and vague contract deliverables. These findings emphasize the need to (1) build a project team with the right skills and clear roles, (2) develop a control system that is accurate and trusted by the project team, and (3) develop a shared understanding between owner and contractor about the control system and contract deliverables, in order to successfully implement PCS.
PurposeThe purpose of this paper is to presents a new modeling approach that provides a measurement tool for evaluating the effectiveness of Project Control Systems (PCS) and the improvement of the project control capability as a part of an organization's project management processes.Design/methodology/approachThis study used a project management maturity approach to develop a measurement model of PCS success. The key elements in this model have been identified using the Fuzzy Analytic Hierarchy Process (FAHP) method to analyze data from a case study involving contractor companies in Saudi's petroleum and chemical industry.FindingsThe results identified six critical elements for PCS success: (1) Change Management, (2) Earned Value, (3) Baselined Plan, (4) Resource Loaded, (5) Progress Method and (6) Governance Program. In addition, Project Forecasting and Corrective Action Verification were identified as the main areas where clients and contractors need to focus for the effective deployment of a PCS.Practical implicationsThe results of this study were used to create a PCS Maturity Model (PCSMM) and a PCS Success Index (PCSSI). The value of this index can help project managers to identify the maturity level of their PCS and improvement areas that lead to enhanced project performance.Originality/valueThis research presents an alternative maturity model for PCS assessment that provides a practical tool to identify areas for improving the critical elements of PCS success. The study draws a clear distinction between overall project success and the success of the PCS.
Purpose The purpose of this study is to analyze the interaction between the enablers and barriers to successful project control system (PCS) implementation in petroleum and chemical projects and to provide a knowledge-based foundation for the evaluation of the dominant factors of PCS success. Design/methodology/approach An integrated approach of interpretive structural modeling (ISM) and cross-impact matrix multiplication applied to classification (Matrice d’Impacts Croisés Multiplication Appliquée à un Classement) were used. An expert group of industry professionals and academics was consulted at the initial stage as an input for the ISM methodology to explore the contextual relationships among the critical factors to PCS implementation in petroleum and chemical projects. Findings This study identifies three dominants enablers of PCS success: the technical skills of the project controller; explicitly defined roles of project team members; and an accurate work breakdown structure. Additionally, six dominant barriers to successful PCS implementation have been identified: lack of standard processes, vague contract deliverables, unclear project goals, unclear project milestones, disparate control system between owner and contractor and lack of information communication. Organizations in the petroleum and chemical sectors should put more effort into the development of these factors to optimize the implementation of PCS. Research limitations/implications A limitation of this current study is its focus on the petroleum and chemical sectors in Saudi Arabia. It is expected that the findings will have wider applicability, but further studies in different sectors and geographic regions should be undertaken to validate this assumption. In this study, a second validation expert group was used to ensure the reliability of the results as much as was possible. However, further studies could be completed to evaluate alternate classification schemes and to test the robustness of the expert consensus and techniques reported, in this study, including an increased number of experts. Practical implications The present study makes some practical contributions to the project delivery process. It provides different project stakeholders with a better understanding of the factors that improve PCS outcomes and helps project owners and contractors to evaluate the PCS used by both parties to understand how they might be aligned for successful project execution. Originality/value The successful implementation of PCS is a key contributor to the total project delivery process. Although there is growing attention on PCS as a critical project management tool in petroleum and chemical projects, the literature in project management shows that PCS implementation has not been taken up as much as originally anticipated. This paper will address this gap by focusing on improving the take-up of strategical PCS implementation through the identification of six dominant enablers and nine dominant barriers as driver factors of success.
PurposeThere is growing recognition that effective project control systems (PCS) are critical to the success of projects. The relationship between the individual elements of PCS and successfully achieving project objectives has yet to be explored. This research investigates the enablers and barriers that influence the elements of PCS success and drive project objectives.Design/methodology/approachThis study adopts a mixed approach of descriptive analysis and regression models to explore the impact of six PCS elements on project outcomes. Petroleum and chemical projects in Saudi Arabia were selected as a case study to validate the research model.FindingsData from a survey of 400 project managers in Saudi’s petroleum and chemical industry reveal that successful PCS are the key to achieving all project outcomes, but they are particularly critical for meeting project cost objectives. Project Governance was identified as the most important of the six PCS elements for meeting project objectives. A lack of standard processes emerged as the most significant barrier to achieving effective project governance, while having skilled and experienced project team members was the most significant enabler for implementing earned value.Practical implicationsThe study offers a direction for implementing and developing PCS as a strategic tool and focuses on the PCS elements that can improve project outcomes.Originality/valueThis research contributes to project management knowledge and differs from previous attempts in two ways. Firstly, it investigates the elements of PCS that are critical to achieving project scope, schedule and cost objectives; secondly, enablers and barriers of PCS success are examined to see how they influence each element independently.
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