Journal ArticleDOI
Autothermal catalytic partial oxidation of glycerol to syngas and to non-equilibrium products.
TLDR
The CPOx of glycerol is explored using a nebulizer to mix droplets with air at room temperature for reactive flash volatilization and results in a maximum in H(2) production at a steam/carbon ratio of 2:3 over a Rh-Ce catalyst.Abstract:
Glycerol, a commodity by-product of the biodiesel industry, has value as a fuel feedstock and chemical intermediate. It is also a simple prototype of sugars and carbohydrates. Through catalytic partial oxidation (CPOx), glycerol can be converted into syngas without the addition of process heat. We explored the CPOx of glycerol using a nebulizer to mix droplets with air at room temperature for reactive flash volatilization. Introducing this mixture over a noble-metal catalyst oxidizes the glycerol at temperatures over 600 degrees C in 30-90 ms. Rhodium catalysts produce equilibrium selectivity to syngas, while platinum catalysts produce mainly autothermal non-equilibrium products. The addition of water to the glycerol increases the selectivity to H(2) by the water gas shift reaction and reduces non-equilibrium products. However, water also quenches the reaction, resulting in a maximum in H(2) production at a steam/carbon ratio of 2:3 over a Rh-Ce catalyst. Glycerol without water produces a variety of chemicals over Pt, including methylglyoxal, hydroxyacetone, acetone, acrolein, acetaldehyde, and olefins.read more
Citations
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Journal ArticleDOI
Catalytic valorization of glycerol to hydrogen and syngas
TL;DR: Glycerol is a byproduct derived from the production of biodiesel and is currently in an oversupply crisis worldwide as discussed by the authors. One approach to alleviate this problem is to transform glycerol into valuable chemicals such as hydrogen and syngas.
Journal ArticleDOI
Recent Advances in Catalytic Conversion of Glycerol
TL;DR: The state-of-the-art accomplishments in the catalytic conversion of glycerol (1,2,3-propanetriol) to fuels and value-added chemicals in the past five years (2008-2012) are discussed in this article.
Journal ArticleDOI
Conversion of glycerol to hydrogen rich gas.
TL;DR: Together, these processes will assist in overcoming the worldwide glut of glycerol, increasing the competitiveness of the biofuel production and reducing the authors' dependency on the fossil based, hydrogen rich gas.
Journal ArticleDOI
A review on glycerol reforming processes over Ni-based catalyst for hydrogen and syngas productions
TL;DR: A review of Ni-based thermochemical processes of glycerol reforming reactions is presented in this article, focusing on the recent advances in catalyst and reactor designs as well as discovering the main routes of catalyst deactivation.
Journal ArticleDOI
Catalytic Partial Oxidation of Methanol and Ethanol for Hydrogen Generation
Keith L. Hohn,Yu Chuan Lin +1 more
TL;DR: Insight is provided into syngas and hydrogen production from methanol and ethanol partial oxidation, particularly highlighting catalytic chemistry.
References
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Journal ArticleDOI
Chemoselective catalytic conversion of glycerol as a biorenewable source to valuable commodity chemicals
TL;DR: This paper provides a comprehensive review and critical analysis on the different reaction pathways for catalytic conversion of glycerol into commodity chemicals, including selective oxidation, selective hydrogenolysis, selective dehydration, pyrolysis and gasification, steam reforming, thermal reduction into syngas, selective transesterification, selective etherification, oligomerization and polymerization, and conversion of Glycerol carbonate.
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Journal ArticleDOI
Hydrogen from hydrocarbon fuels for fuel cells
Shabbir Ahmed,Michael Krumpelt +1 more
TL;DR: In this article, the authors describe the steam reforming process, discuss the three principal pathways (steam reforming, partial oxidation, and autothermal reforming), and demonstrate that the process is most efficient when conducted under conditions of thermoneutrality (ΔHr=0).