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Filipe, Rui

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5614-1790-85E3
0000-0002-7093-316X

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Author: Matos, Henrique A. × Start date: 2020 ×

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Now showing 1 - 3 of 3
  • Modeling the deactivation of CaO-based sorbents during multiple Ca-looping cycles for CO2 post-combustion capture
    Publication . Abreu, Miguel; Teixeira, Paula; Filipe, Rui; Domingues, Luís; Pinheiro, Carla; Matos, Henrique A.
    A novel model is presented for the estimation of natural CaO-based sorbents carbonation reactivity decay during Calcium Looping carbonation-calcination cycles. The model consists of a cyclic framework of two sub-models, the Overlapping Grain Model and the novel proposed modified Rate Theory for the Pore Size Distribution model. The model was implemented in gPROMS ModelBuilder (R) and parameter estimation was used for model validation using experimental data from three CaO-based sorbent precursors. The carbonation profile for the three sorbents was simulated with average deviations under 5%. The calcination sub-model predicted the evolution of total porous volume and total surface area for the calcination and sintering of dolomite, with an error of 3%. The cyclic framework successfully predicted the carbonation behavior of dolomite for 20 carbonation-calcination cycles. The model can be used for other CaO-based sorbents and the flexible modular structure allows the integration of other modules or approaches.
    2020-03-04Journal article Restricted access Show more
  • ProGreS 2nd Workshop: from biomass characterization to process synthesis (book of extended abstracts)
    Publication . Coelho, Jose; Matos, Henrique A.; Filipe, Rui; Robalo, Maria Paula; Braz, Catarina G.
    2022Book Open access Show more
  • Analysis of integrated calcium looping alternatives in a cement plant
    Publication . Amorim, Ana; Filipe, Rui; Matos, Henrique A.
    Calcium looping is a promising post-combustion CO2 capturing technology, highly compatible with the cement industry, one of the major industrial sources of CO2 emissions. Limestone, a raw material for clinker, forms lime, a calcium looping adsorbent. Thus, it is possible to maximize the synergies between a cement plant and a calcium looping unit by establishing an integrated configuration. Nevertheless, the integration of calcium looping in cement plants has not yet been thoroughly studied. This study examines different integration alternatives, developing models for the preheater and calciner using Aspen Plus, validated with operational data, alongside an entrained-flow carbonator model considering adsorbent deactivation. By combining these models, six integrated configurations are proposed and compared with the tail-end calcium looping configuration. The integrated configurations show a reduction in fuel consumption and net energy consumption for the same CO2 avoided emissions. The most promising configuration was identified and a comparative techno-economic analysis was conducted.
    2025-07-01Research article Open access Show more