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Computational fluid dynamics analysis of char conversion in Sandia’s pressurized entrained flow reactor

Journal Article · · Review of Scientific Instruments
DOI:https://doi.org/10.1063/5.0005733· OSTI ID:1644074
 [1];  [2];  [2];  [3];  [3];  [4]
  1. Technical Univ. of Vienna (Austria); K1-MET GmbH, Linz (Austria)
  2. Lawrence Livermore National Lab. (LLNL), Livermore, CA (United States), Combustion Research Facility
  3. K1-MET GmbH, Linz (Austria)
  4. Technical Univ. of Vienna (Austria)
+ Show Author Affiliations

Design and analysis of practical reactors utilizing solid feedstocks rely on reaction rate parameters that are typically generated in lab-scale reactors. Evaluation of the reaction rate information often relies on assumptions of uniform temperature, velocity, and species distributions in the reactor, in lieu of detailed measurements that provide local information. This assumption might be a source of substantial error, since reactor designs can impose significant inhomogeneities, leading to data misinterpretation. Spatially resolved reactor simulations help understand the key processes within the reactor and support the identification of severe variations of temperature, velocity, and species distributions. In this work, Sandia’s pressurized entrained flow reactor is modeled to identify inhomogeneities in the reaction zone. Tracer particles are tracked through the reactor to estimate the residence times and burnout ratio of introduced coal char particles in gasifying environments. The results reveal a complex mixing environment for the cool gas and particles entering the reactor along the centerline and the main high-speed hot gas reactor flow. Furthermore, the computational fluid dynamics (CFD) results show that flow asymmetries are introduced through the use of a horizontal gas pre-heating section that connects to the vertical reactor tube. Computed particle temperatures and residence times in the reactor differ substantially from the idealized plug flow conditions typically evoked in interpreting experimental measurements. Furthermore, experimental measurements and CFD analysis of heat flow through porous refractory insulation suggest that for the investigated conditions (1350 °C, <20 atm), the thermal conductivity of the insulation does not increase substantially with increasing pressure.

Research Organization:
Sandia National Laboratories (SNL-CA), Livermore, CA (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA)
Grant/Contract Number:
AC04-94AL85000; NA0003525
OSTI ID:
1644074
Alternate ID(s):
OSTI ID: 1638405
Report Number(s):
SAND--2020-7140J; 687315
Journal Information:
Review of Scientific Instruments, Journal Name: Review of Scientific Instruments Journal Issue: 7 Vol. 91; ISSN 0034-6748
Publisher:
American Institute of Physics (AIP)Copyright Statement
Country of Publication:
United States
Language:
English

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Related Subjects

47 OTHER INSTRUMENTATION
Combustion dynamics
chemical kinetics and dynamics
computational fluid dynamics
fuels
gasification
laboratory equipment
refractory materials
thermal conductivity