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Evaporator integration evolution

A complete methanol reforming system was constructed by coimecting the integrated reformer with a PROX reactor. Fig. 5 shows the evolution of temperature at the gas outlet of the evaporator, reformer and PROX reactor during the start-up. Temperature of the reformer became stable in 5 min after introduction of the reactant. The reformer produced hydrogen up to 1.5L/min with methanol conversion higher than 95%, enough to run a lOOW PEMFC. [Pg.659]

Fig.3 - 3-BCMU films obtained by evaporation of the solvent (thickness lym). Evolution of the second harmonic intensity under the laser pulses (100 yj/ pulse focal length 50 cm pulse frequency f = 10 Hz boxcar integration time T = 100 ms). The film was always submitted to the laser pulses the external field (E = 10 Vcm was suddenly switched on or off through the HV relay. Fig.3 - 3-BCMU films obtained by evaporation of the solvent (thickness lym). Evolution of the second harmonic intensity under the laser pulses (100 yj/ pulse focal length 50 cm pulse frequency f = 10 Hz boxcar integration time T = 100 ms). The film was always submitted to the laser pulses the external field (E = 10 Vcm was suddenly switched on or off through the HV relay.
See other pages where Evaporator integration evolution is mentioned: [Pg.413]    [Pg.37]    [Pg.352]    [Pg.304]    [Pg.189]    [Pg.468]    [Pg.43]    [Pg.336]    [Pg.82]   
See also in sourсe #XX -- [ Pg.356 , Pg.357 , Pg.358 ]



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Evaporator integration

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