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Orientador(es)
Resumo(s)
Pervaporation process using commercial silica water selective membranes was evaluated to contribute
for the ethyl lactate process intensification by continuous pervaporation membrane reactor. Preliminary
studies were performed in order to assess the existence of membrane defects and mass transfer limitations,
studying the influence of feed pressure and flowrate, respectively. After, in the absence of mass
transfer limitations, membrane performance was evaluated experimentally, at different composition
and temperature measuring the flux and selectivity of each species in binary mixtures (water/ethanol,
water/ethyl lactate and water/lactic acid). Thus, species permeances were obtained for each experiment
and correlated in order to account for the effect of temperature and feed composition. Permeances of
ethanol and ethyl lactate depend solely on the temperature, following an Arrhenius equation; for water,
its permeance follows a modified Arrhenius equation taking into account also the dependence on the feed
water content. Mathematical models, considering concentration and temperature polarization, and nonisothermal
effects as well, were developed and applied to analyze the performance of batch pervaporation
and continuous pervaporation membrane reactor, in both isothermal and non-isothermal conditions. The
PVMR with five membranes in series, operating at 70 ◦C, leads to 98% of lactic acid conversion and 96%
of ethyl lactate purity.
Descrição
Palavras-chave
Pervaporation membrane reactor Concentration polarization Temperature polarization Non-isothermal model Silica membrane Ethyl lactate
Contexto Educativo
Citação
Pereira, Carla; Silva, Viviana; Pinho, Simão; Rodrigues, Alírio (2010). Batch and continuous studies for ethyl lactate synthesis in a pervaporation membrane reactor. Journal of Membrane Science. ISSN 0376-7388. Vol.361, Nº1-2, p.43-55
Editora
Elsevier