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Augusto Q. Novais
Researcher at Instituto Nacional de Engenharia, Tecnologia e Inovação
Publications - 130
Citations - 3560
Augusto Q. Novais is an academic researcher from Instituto Nacional de Engenharia, Tecnologia e Inovação. The author has contributed to research in topics: Supply chain & Negotiation. The author has an hindex of 29, co-authored 130 publications receiving 3305 citations. Previous affiliations of Augusto Q. Novais include Instituto Superior Técnico & Technical University of Lisbon.
Papers
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An optimization model for the design of a capacitated multi-product reverse logistics network with uncertainty
TL;DR: A generalized model for the design of a generic reverse logistics network where capacity limits, multi-product management and uncertainty on product demands and returns are considered is proposed.
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Kinetics of hydrolysis of sodium borohydride for hydrogen production in fuel cell applications: A review
TL;DR: A review of the literature on the kinetics of aqueous NaBH 4 solution can be found in this paper, where the authors summarized the extensive literature on kinetics and developed a reliable kinetic model.
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Simultaneous design and planning of supply chains with reverse flows: A generic modelling framework
TL;DR: A multi-period and multi-product network model for the simultaneous design and planning of supply chains with reverse flows is proposed and an example based on a Portuguese industry case is studied to validate both the applicability and adequacy of the model to real world problems.
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Multi-period design and planning of closed-loop supply chains with uncertain supply and demand
TL;DR: A design and planning approach is proposed for addressing general multi-period, multi-product closed-loop supply chains (CLSCs), structured as a 10-layer network, with uncertain levels in the amount of raw material supplies and customer demands.
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Simple Continuous-Time Formulation for Short-Term Scheduling of Batch and Continuous Processes
TL;DR: A new and simple general mathematical formulation for scheduling multipurpose plants involving batch and/or continuous processes, based on the resource−task network (RTN) representation, is presented and is shown to compare favorably to existing continuous-time formulations.