Effects of oxy-fuel conditions on the products of pyrolysis in a drop tube reactor

The goal of the current study was to investigate the influence of increased CO2 concentrations in oxy-fuel combustion on the products of coal devolatilization (gas, tar, soot and char). Experiments have been carried out in a laminar drop tube reactor (DTR) at conditions comparable to pulverized coal...

Full description

Saved in:
Bibliographic Details
Published in:Fuel processing technology 2016-09, Vol.150, p.41-49
Main Authors: Heuer, S., Senneca, O., Wütscher, A., Düdder, H., Schiemann, M., Muhler, M., Scherer, V.
Format: Article
Language:English
Subjects:
Atmospheres
Carbon dioxide
Chemical structure
Coal
Combustion
Devolatilization
Gaseous emissions
Oxy-coal combustion
Oxy-fuel
Pulverized
Pyrolysis
Soot
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The goal of the current study was to investigate the influence of increased CO2 concentrations in oxy-fuel combustion on the products of coal devolatilization (gas, tar, soot and char). Experiments have been carried out in a laminar drop tube reactor (DTR) at conditions comparable to pulverized coal-fired boilers, in particular at a temperature of 1573K and heating rate of 104–105K/s. Atmospheres of N2, Ar, and CO2 as well as with O2/N2 and O2/CO2 mixtures (oxidizing oxy-fuel conditions) were applied. The work focuses on the early stages of reaction of coal particles in a pulverized combustor, therefore, a residence time of 120ms was chosen, which assured the completion of pyrolysis while limiting the progress of char combustion and gasification. Gaseous, liquid and solid pyrolysis residues were extracted and analyzed by a multitude of techniques. A remarkable result is the effect that CO2 has on the solid products of pyrolysis. A much larger production of soot is observed in CO2 conditions over Ar or N2 conditions (3:1). The combustion reactivity of both soot and char produced in CO2 is lower than that of the corresponding samples produced in Ar or N2 atmosphere. Differences in reactivity couple with differences in the CO complexes residing on the surface and measured by XPS. The effect of CO2 on gaseous products is to increase the concentration of acetylene, while abating most other hydrocarbon species. When experiments are carried out in air and oxy-fuel atmospheres, soot and tar are consumed by combustion. Differences among chars are observed which can be mostly related to the attainment of different extents of burn out. In the oxy-fuel experiments, lower NO and NO2 and higher N2O concentrations are found in the gas compared to air experiments. •Pyrolysis of bituminous coal was carried out with N2 or CO2 atmospheres•A DTR with very short residence time was used•Substituting N2 with CO2 atmospheres affects the reaction products severely•Composition of the volatiles as well as physico-chemical char properties change•A large production of soot is observed when coal is pyrolyzed in CO2 atmosphere
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2016.04.034