Skip to main content
OSTI.GOVU.S. Department of Energy Office of Scientific and Technical Information
U.S. Department of Energy
Office of Scientific and Technical Information
 

Distillation tower corrosion: synergistic effects of chlorine and phenolic compounds in coal liquids

Technical Report ·
OSTI ID:6164401
; ; ;
Severe corrosion problems were encountered in the fractionator area of major solvent refined coal (SRC) pilot plants. Chemical characterization and corrosion experiments using liquids from the T-105 fractionating tower of the Wilsonville, Alabama SRC plant are described. Tower feed liquids were obtained when the plant was processing low and high chlorine content coals without additives. Liquids from individual trays were obtained when the plant feed included additions of sodium carbonate. In summary, the experimental results in this report clearly show that for the plant feed and operational conditions discussed here: (1) much of the chloride in the liquid feed to the T-105 tower is in a water soluble chloride form when a high-chlorine coal is processed; (2) 40 to 50 weight percent of the liquid in the trays in the T-105 tower at the Wilsonville demonstration plant are phenols; these are primarily phenol, cresols, and dimethylphenols; (3) ammonium chloride, when added to the T-105 tray 9 liquid, causes a dramatic (10 fold or more) increase in the corrosion rates of selected coupons; 665 ppM chloride gives laboratory corrosion rates that are close to the high rates observed in the demonstration plant; (4) ammonium chloride addition to the oil fraction (tray 9 liquid with the phenols extracted) does not cause an increase in the corrosion rate; however, the high corrosion rate is observed when the phenol fraction is added back to the oil fraction; (5) the synergistic effect of the ammonium chloride and phenol combination was demonstrated; high solubility of the ammonium chloride in tray 9 liquid, but not in the tray 9 liquid after phenol extraction, indicates that ammonium chloride solubility is at least in part responsible for this synergistic effect. It is likely that a similar cooperative effect is responsible for the Wilsonville tower corrosion.
Research Organization:
Kentucky Univ., Lexington (USA). Inst. for Mining and Minerals Research; Ashland Oil, Inc., KY (USA)
OSTI ID:
6164401
Report Number(s):
IMMR-48-PD23-80; ON: DE82901043
Country of Publication:
United States
Language:
English

Similar Records

Distillation tower corrosion: synergistic effects of chlorine and phenolic compounds in coal liquids. Final report
Technical Report · Fri Feb 29 23:00:00 EST 1980 · OSTI ID:6291552
Corrosion of fractionation towers in coal liquefaction plants
Technical Report · Thu Sep 01 00:00:00 EDT 1983 · OSTI ID:6844713
Corrosion in SRC-I coal liquid distillation towers. SRC-I quarterly technical report, April-June 1981. Supplement
Technical Report · Fri Jun 01 00:00:00 EDT 1984 · OSTI ID:6808863

Related Subjects

01 COAL, LIGNITE, AND PEAT
010405 -- Coal
Lignite
& Peat-- Hydrogenation & Liquefaction
010600* -- Coal
Lignite
& Peat-- Properties & Composition
36 MATERIALS SCIENCE
360105 -- Metals & Alloys-- Corrosion & Erosion
AMMONIUM CHLORIDES
AMMONIUM COMPOUNDS
AMMONIUM HALIDES
AROMATICS
CHEMICAL REACTIONS
CHLORIDES
CHLORINE COMPOUNDS
COAL LIQUIDS
CORROSION
CORROSIVE EFFECTS
DISTILLATION EQUIPMENT
EQUIPMENT
FLUIDS
FUNCTIONAL MODELS
HALIDES
HALOGEN COMPOUNDS
HYDROXY COMPOUNDS
LIQUIDS
ORGANIC COMPOUNDS
PHENOLS
PILOT PLANTS
SRC PROCESS
SYNERGISM