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Autothermal Reforming of Natural Gas to Synthesis Gas

Technical Report ·
DOI:https://doi.org/10.2172/902090· OSTI ID:902090
 [1];
  1. Sandia National Laboratories
+ Show Author Affiliations
This Project Final Report serves to document the project structure and technical results achieved during the 3-year project titled Advanced Autothermal Reformer for US Dept of Energy Office of Industrial Technology. The project was initiated in December 2001 and was completed March 2005. It was a joint effort between Sandia National Laboratories (Livermore, CA), Kellogg Brown & Root LLC (KBR) (Houston, TX) and Süd-Chemie (Louisville, KY). The purpose of the project was to develop an experimental capability that could be used to examine the propensity for soot production in an Autothermal Reformer (ATR) during the production of hydrogen-carbon monoxide synthesis gas intended for Gas-to-Liquids (GTL) applications including ammonia, methanol, and higher hydrocarbons. The project consisted of an initial phase that was focused on developing a laboratory-scale ATR capable of reproducing conditions very similar to a plant scale unit. Due to budget constraints this effort was stopped at the advanced design stages, yielding a careful and detailed design for such a system including ATR vessel design, design of ancillary feed and let down units as well as a PI&D for laboratory installation. The experimental effort was then focused on a series of measurements to evaluate rich, high-pressure burner behavior at pressures as high as 500 psi. The soot formation measurements were based on laser attenuation at a view port downstream of the burner. The results of these experiments and accompanying calculations show that soot formation is primarily dependent on oxidation stoichiometry. However, steam to carbon ratio was found to impact soot production as well as burner stability. The data also showed that raising the operating pressure while holding mass flow rates constant results in considerable soot formation at desirable feed ratios. Elementary reaction modeling designed to illuminate the role of CO2 in the burner feed showed that the conditions in the burner allow for the direct participation of CO2 in the oxidation chemistry.
Research Organization:
Sandia National Laboratories; KBR Houston TX
Sponsoring Organization:
USDOE - Office of Energy Efficiency and Renewable Energy (EE)
DOE Contract Number:
AC04-94AL85000
OSTI ID:
902090
Report Number(s):
DOE/AL/85000-2007-2331; SAND2007-2331; KBR paper # 2031
Country of Publication:
United States
Language:
English

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Related Subjects

03 NATURAL GAS
10 SYNTHETIC FUELS
Autothermal Reforming
CARBON DIOXIDE
DESIGN
FLOW RATE
High-Pressure flame
NATURAL GAS
Natural Gas
PRODUCTION
SANDIA NATIONAL LABORATORIES
SOOT
SYNTHESIS GAS
Soot formation