Index of ACERC Publications by Author

1-00-J01 - A Global Free-Radical Mechanism for Light Gas Nitrogen Release from Coal during Devolatilization

1-00-J02 - The Use of Two Mixture Fractions to Treat Coal Combustion in Turbulent Pulverized-Coal Flames

2-00-J01 - Measurement of Soot and Char in Pulverized Coal Fly Ash

2-00-P01 - Solid-State C-13 NMR Characterization of Matched Tars and Chars From Rapid Coal Devolatilization

2-00-P02 - Modeling High Pressure Char Oxidation Using Langmuir Kinetics with an Effectiveness Factor

3-00-J01 - Transformations of Coal-Derived Soot at Elevated Temperature

4-00-J01 - Improving the Accuracy of Predicting Effectiveness Factors for m-th Order and Langmuir Rate Equations in Spherical Coordinates

1-99-J01 - Modeling Nitrogen Release During Devolatilization on the Basis of Chemical Structure of Coal

1-99-J02 - The Use of Two Mixture Fractions to Treat Coal Combustion in Turbulent Pulverized-Coal Flames

1-99-J03 - Predicting C-13 NMR Measurements of the Chemical Structure of Coal Based on Elemental Composition and Volatile Matter Content

1-99-P02 - Kinetics of High-Pressure Char Oxidation

2-99-J02 - Measurement of Soot and Char in Pulverized Coal Fly Ash

1-98-J01 - Development and Application of a Correlation of C-13 NMR Chemical Structural Analyses of Coal Based on Elemental Composition and Volatile Matter Content

1-98-J02 - Nitrogen Transformation in Coal During Pyrolysis

2-98-J03 - Modeling Soot Derived from Pulverized Coal

2-98-J04 - Evaluation of CH4/NOx Reduced Mechanisms Used for Modeling Lean Premixed Turbulent Combustion of Natural Gas

1-97-J03 - Predicting C-13 NMR Measurements of Chemical Structure of Coal Based on Elemental Composition and Volatile Matter Content

1-97-J07 - Nitrogen Transformations in Coal During Pyrolysis

1-97-P01 - N-15 NMR Spectroscopy of Coals and Pyrolysis Products

1-97-P03 - Determination of the Forms of Nitrogen Released in Coal Tar During Rapid Devolatilization

2-97-J03 - Soot in Coal Combustion Systems

1-96-J08 - Effects of Pyrolysis Heating Rate on Intrinsic Reactivities of Coal Chars

1-96-J09 - Nitrogen Release During Coal Combustion

1-96-P04 - Measurements of the Optical Properties of Coal-Derived and Propane-Derived Soot in a Flat Flame Reactor

1-96-S01 - Conversion of Coal Tar to Soot During Coal Pyrolysis in a Post-Flame Environment

1-96-S05 - Chemical Structure of Coal Tar During Devolatilization

4-96-S03 - Conversion of Coal Tar to Soot During Coal Pyrolysis in a Post-Flame Environment

5-96-J03 - Global Rate Expression for Nitric Oxide Reburning. Part 2

5-96-J06 - A Computational Method for Determining Global Fuel-NO Rate Expressions. Part 1

1-94-B03 - The Structure and Reaction Process of Coal

1-94-J08 - Decreases in the Swelling and Porosity of Bituminous Coals During Devolatilization

1-94-J09 - Effects of Pyrolysis Conditions on Internal Surface Areas and Densities of Coal Chars Prepared at High Heating Rates in Reactive and Non-Reactive Atmospheres

1-94-P02 - Chemical Structure Changes of Coal, Char, and Tar During Devolatilization

1-94-S02 - The Impace of Pyrolysis in Combustion

1-93-B01 - Coal Characteristics, Structure, and Reaction Rates

1-93-B02 - The Structure and Reaction Processes of Coal

1-93-B03 - The Structure and Reaction Processes of Coal

1-93-J01 - An Overview of ACERC Reserach in Fuel Characterization and Reaction Mechanisms

1-93-J03 - Chemical Structural Features of Pyridine Extracts and Residues of the Argonne Premium Coals Using Solid State C-13 NMR Spectroscopy

1-93-J04 - Progress in Coal Pyrolysis

1-93-J14 - Heat Transfer From a Molten Phase to an Immersed Coal Particle During Devolatilization

1-93-J15 - Swelling Properties of Coal Chars During Rapid Pyrolysis and Combustion

1-93-P01 - Chemical Structural Features of Coal Chars, Tars, and Char Extracts During Rapid Pyrolysis Using C-13 and H-1 NMR Spectroscopy

1-93-P03 - The Use of Solid State C-13 NMR Spectroscopy to Study Pyridine Extracted and Extraction Residues in the Argonne Premium Coals

1-93-P11 - Comparison of Reactivity and Physical Structure of Chars Prepared Under Different Pyrolysis Conditions, i.e. Temperature, Gas Atmosphere, and Heating Rate

1-93-P12 - Coal and Char Structural Parameters Derived from Solid State C-13 NMR Studies

4-93-P01 - Properties of Soot from Coal Tar

5-93-J01 - Properties of Soot from Coal Tar

1-92-I01 - Progress in Coal Pyrolysis

1-92-J02 - Chemical Structure of Char in the Transition from Devolatilization to Combustion

1-92-P02 - Coal and Char Structural Parameters Derived from Solid-State C-13 NMR Studies

1-92-P03 - The Use of C-13 NMR Structural Information for Predicting Coal Devolatilization Behavior

1-91-I01 - Progress in Coal Pyrolysis

1-91-J08 - Structural Evolution of Matched Tar/Char Pairs in Rapid Pyrolysis Experiments

1-91-P02 - Predicting Vapor Pressures of Tar and Metaplast During Coal Pyrolysis

1-91-P10 - Progress in Coal Pyrolysis

1-90-J01 - Chemical Percolation Model for Devolatilization: 2. Temperature and Heating Rate Effects on Product Yields

1-90-J03 - Structural Evolution of Matched Tar/Char Pairs in Rapid Pyrolysis Experiments

1-90-J20 - A Chemical Percolation Model of Coal Devolatilization: 3. Direct Use of C-13 NMR Data to Predict Effects of Coal Type

1-90-P01 - Mass Spectrometric Studies of the Chemical Composition of Coal Tars Produced in a Laminar Flow Reactor

1-90-S04 - Solid-State C-13 and H-1 NMR Studies of the Evolution of the Chemical Structure of Coal Char and Tar During Devolatilization

1-89-J02 - Chemical Percolation Model for Devolatilization: II. Temperature and Heating Rate Effects on Product Yields

1-89-P01 - Solid-State C-13 NMR Studies of Coal Char Structure Evolution

1-89-P05 - A Chemical Percolation Model for Devolatilization: Temperature and Heating Rate Effects

1-88-J01 - A Study of Two Chemical Reaction Models in Turbulent Combustion

1-88-P07 - A Chemical Model of Coal Devolatilization Using Percolation Lattice Statistics

5-86-J01 - Prediction of High Intensity Pulverized Coal Combustion