Idriss El‐Thalji scite author profile

Purpose -The purpose of this paper is to review the operation and maintenance practices within wind power applications and to clarify practical needs as gaps between researchers and practitioners. Design/methodology/approach -The paper collects, categorizes, and analyzes the published literature of both researchers and practitioners systematically. Findings -The paper defines significant issues in operation and maintenance of wind energy related to: site and seasonal asset disturbances; stakeholders' requirements trade-off; dependability and asset deterioration challenges; diagnostic, prognostic and information and communication technologies (ICTs) applications; and maintenance optimization models. Within each category, the gaps and further research needs have been extracted with respect to both an academic and industrial perspective. Practical implications -The use of wind energy is growing rapidly and the associated practices related to maintenance and asset management are still lacking. Therefore, the literature review of operation and maintenance is a necessity to uncover the holistic issues and interrelationships of what has so far been published as detailed and fragmented topics to specific issues. Wind energy assets represent modern renewable energy assets which are affected by environmental disturbances, rapid technological development, rapid scaling-up processes, the stochastic and dynamic nature of operations and degradation, the integrity and interoperability of system-to-support. Originality/value -The paper provides a comprehensive review of research contributions and industrial development efforts. That will be useful to the life cycle stakeholders in both academia and industry in understanding the maintenance problem and solution space within the wind energy context.

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Modeling a predictive maintenance management architecture to meet industry 4.0 requirements: A case study

Nordal

El‐Thalji

2020

Systems Engineering

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Industry 4.0 is the latest paradigm of industrial production enabling a new level of organizing and controlling the entire value chain within a product life cycle by creating a dynamic and real‐time understanding of cross‐company behaviors. It is expected to have a considerable impact in the oil and gas (O&G) sector by revolutionizing current predictive maintenance and operation optimization. There are several challenges to be overcome before the Industry 4.0 vision is achieved: a standardized reference architecture, a business model, robust services, and products are all lacking. This paper develops a reference architecture for an intelligent maintenance management system that complies with Industry 4.0 visions and requirements. The industrial needs were derived from stakeholders and use case scenarios using a case study methodology. Systems engineering methods were applied to transfer the needs of the existing maintenance management system into a desired functional architecture. The new and upgraded requirements are predominantly related to advanced data analytics, resulting in new and modified functions within the traditional “Reporting” and “Analyses” modules. A more complex maintenance program is created through interfaces between various enabled data categories (historical records, real‐time measurements of performance and health, expert‐just‐in‐time). The study points to the changes required in the classical O&G maintenance management process to comply with Industry 4.0 vision and requirements.

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Idriss El‐Thalji

A summary of fault modelling and predictive health monitoring of rolling element bearings

A descriptive model of wear evolution in rolling bearings

Dynamic modelling of wear evolution in rolling bearings

On the operation and maintenance practices of wind power asset

Modeling a predictive maintenance management architecture to meet industry 4.0 requirements: A case study

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