Development and use of an apparatus to measure the dynamic surface properties of coal-water slurry fuels for applications to atomization characteristics

Development and use of an apparatus to measure the dynamic surface properties of coal-water slurry fuels for applications to atomization characteristics [electronic resource]

The Texas A M University (TAMU) has been awarded a DOE contract to study dynamic properties and atomization characteristics of coal-water slurry (CWS) fuels. Additives are essential for better mixing and stable suspension of coal powders and these additives change CWS properties. Dynamic properties...

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Bibliographic Details
Online Access: Online Access
Corporate Authors: Texas A & M University. Department of Mechanical Engineering (Researcher), National Energy Technology Laboratory (U.S.) (Researcher)
Format: Government Document Electronic eBook
Language:English
Published: Washington, D.C. : Oak Ridge, Tenn. : United States. Dept. of Defense ; distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 1993.
Subjects:
Surface Properties.
Atomization.
Materials.
Coal.
Surfactants.
Document Types.
Progress Report.
Fuel Slurries.
Carbonaceous Materials.
Additives.
Surface Tension.
Water.
Oxygen Compounds.
Fossil Fuels.
Mixtures.
Fuels.
Dispersions.
Suspensions.
Slurries.
Hydrogen Compounds.
Energy Sources.
Planning.
Coal, Lignite, And Peat.
Description
Summary:The Texas A M University (TAMU) has been awarded a DOE contract to study dynamic properties and atomization characteristics of coal-water slurry (CWS) fuels. Additives are essential for better mixing and stable suspension of coal powders and these additives change CWS properties. Dynamic properties will have major effects on CWS fuel atomization, which constitutes highly dynamic processes, and will determine the combustion as well as the pollutant formation behaviors. The dynamic surface tension of CWS fuels can be much higher than the corresponding static surface tension. Experimental study of correlating the atomization characteristics and dynamic properties of CWS fuels will be performed during the contract period. The research projects consists of five tasks. Task 1 selects appropriate additives and surfactants for CWS fuels by measuring the stabilizing characteristics and critical micelle concentrations (CMC). Task 2 implements the dynamic surface tensiometer operating based on the formation of maximum bubble pressure. Task 3 measures dynamic properties of CWS fuels as functions of bubble frequency while the fuel parameters are varied. The fuel parameters include coal loading, type of stabilizer and type of surfactant. Task 4 will devise a CWS fuel spray system and Task 5 will measure the spray droplet sizes using a laser diffraction technique.
Item Description:Published through the Information Bridge: DOE Scientific and Technical Information.
01/31/1993.
"doe/pc/92156-t1"
"DE93009656"
Kihm, K.D.
Physical Description:Pages: (14 p) : digital, PDF file.

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