4 resultados para medically supervised injectable maintenance clinic
em Instituto Politécnico do Porto, Portugal
Resumo:
The current regulatory framework for maintenance outage scheduling in distribution systems needs revision to face the challenges of future smart grids. In the smart grid context, generation units and the system operator perform new roles with different objectives, and an efficient coordination between them becomes necessary. In this paper, the distribution system operator (DSO) of a microgrid receives the proposals for shortterm (ST) planned outages from the generation and transmission side, and has to decide the final outage plans, which is mandatory for the members to follow. The framework is based on a coordination procedure between the DSO and other market players. This paper undertakes the challenge of optimization problem in a smart grid where the operator faces with uncertainty. The results show the effectiveness and applicability of the proposed regulatory framework in the modified IEEE 34- bus test system.
Resumo:
Distribution systems are the first volunteers experiencing the benefits of smart grids. The smart grid concept impacts the internal legislation and standards in grid-connected and isolated distribution systems. Demand side management, the main feature of smart grids, acquires clear meaning in low voltage distribution systems. In these networks, various coordination procedures are required between domestic, commercial and industrial consumers, producers and the system operator. Obviously, the technical basis for bidirectional communication is the prerequisite of developing such a coordination procedure. The main coordination is required when the operator tries to dispatch the producers according to their own preferences without neglecting its inherent responsibility. Maintenance decisions are first determined by generating companies, and then the operator has to check and probably modify them for final approval. In this paper the generation scheduling from the viewpoint of a distribution system operator (DSO) is formulated. The traditional task of the DSO is securing network reliability and quality. The effectiveness of the proposed method is assessed by applying it to a 6-bus and 9-bus distribution system.
Resumo:
A evolução tecnológica, com particular incidência nas tecnologias de informação, e a necessidade de uma integração cada vez mais profunda do sector da manutenção na gestão estratégica global da empresa, contribuíram para o aparecimento dos sistemas de e-maintenance. Por outro lado, os conceitos associados à manutenção deverão estar cada vez mais associados à manutenção remota. Assim, o desenvolvimento de plataformas de e-maintenance, entendidas como a agregação de software e hardware e outras tecnologias integradas, permitiram implementar serviços, que foram determinantes para a evolução deste conceito. Nesta comunicação apresenta-se uma plataforma de e-maintenance aplicada a um sistema automatizado de pesagem de viaturas na indústria cimenteira. O sistema é baseado na monitorização constante da degradação dos componentes críticos que, através de um sistema de alertas, permite antecipar as falhas notificando, atempadamente, a equipe de operadores específicos. A aplicação foi desenvolvida na Framework SLV Cement da empresa Cachapuz. Possuindo vários módulos de gestão da manutenção esta plataforma permite definir e controlar todo o fluxo de informação.
Resumo:
In the proposed model, the independent system operator (ISO) provides the opportunity for maintenance outage rescheduling of generating units before each short-term (ST) time interval. Long-term (LT) scheduling for 1 or 2 years in advance is essential for the ISO and the generation companies (GENCOs) to decide their LT strategies; however, it is not possible to be exactly followed and requires slight adjustments. The Cournot-Nash equilibrium is used to characterize the decision-making procedure of an individual GENCO for ST intervals considering the effective coordination with LT plans. Random inputs, such as parameters of the demand function of loads, hourly demand during the following ST time interval and the expected generation pattern of the rivals, are included as scenarios in the stochastic mixed integer program defined to model the payoff-maximizing objective of a GENCO. Scenario reduction algorithms are used to deal with the computational burden. Two reliability test systems were chosen to illustrate the effectiveness of the proposed model for the ST decision-making process for future planned outages from the point of view of a GENCO.