2004
DOI: 10.1016/j.tca.2004.05.018
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Thermal decomposition (pyrolysis) of urea in an open reaction vessel

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Cited by 743 publications
(568 citation statements)
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“…Melting of urea occurs at around 406 K as reported by Sangster (1999). Schaber et al (2004) reports the vaporization of molten urea at 413 K and direct decomposition into ammonia and isocyanic acid at temperatures above 425 K. The experiments on a single droplet by Wang et al (2009) also show fast depletion of urea at temperatures above 423 K conforming to the observations of Schaber et al (2004). Whereas the experimental data of Emel 'Yanenko et al (2006) and Bernhard et al (2011) suggests urea phase change to gaseous state at temperatures around 406 K. Different numerical approaches have been used to solve this problem.…”
Section: Urea Depletion Thermolysis and Hydrolysismentioning
confidence: 58%
“…Melting of urea occurs at around 406 K as reported by Sangster (1999). Schaber et al (2004) reports the vaporization of molten urea at 413 K and direct decomposition into ammonia and isocyanic acid at temperatures above 425 K. The experiments on a single droplet by Wang et al (2009) also show fast depletion of urea at temperatures above 423 K conforming to the observations of Schaber et al (2004). Whereas the experimental data of Emel 'Yanenko et al (2006) and Bernhard et al (2011) suggests urea phase change to gaseous state at temperatures around 406 K. Different numerical approaches have been used to solve this problem.…”
Section: Urea Depletion Thermolysis and Hydrolysismentioning
confidence: 58%
“…This level is consistent with the observed relative mass just before calcination (79%), which then is the sum of the relative masses of calcium carbonate and stable inorganics. The weight loss in between 112 and 162 • C (5%) may relate to decomposition/combustion of urea, which begins at 130 • C [47]. On the other hand, the decomposition of struvite, yielding magnesium hydrogenphosphate upon releasing ammonia and water, occurs in a single step between~55 and 250 • C [48], and can hardly be separated from the decomposition/combustion of organics.…”
Section: Resultsmentioning
confidence: 99%
“…The kinetic scheme is shown in Table 1. The kinetic parameters are re-optimized to best match the published experimental data (Schaber et al, 2004).…”
Section: Wall Film Modelmentioning
confidence: 99%
“…Among the four deposit by-products assumed in this study, very little ammelide is produced throughout the temperature range, and urea and biuret are easily decomposed. Consequently, CYA seems to be the most harmful deposit component, since it will not decompose completely unless the temperature is higher than 653 K (Schaber et al, 2004) and is difficult to remove. In our simulation, CYA begins to form from 495 K and becomes the dominant component of deposits at 539 K. This indicates that deposits formed at higher temperatures are more difficult to deal with.…”
Section: Deposit By-products Analysismentioning
confidence: 99%