| Abel, Alexander | Rapid Batch Characterization of Coal Utilization By-products |
| Acosta, D. | Production of Lightweight Aggregates from Coal Gasification Fly Ash and Slag |
| Adams, Joby | Use of Sulfur Isotopes to Monitor Dissolved Sulfate Derived from a Fly Ash Disposal Site, North-Central Colorado |
| Adams, Rich | Chloride Penetrability of Concrete Composites Made with Illinois PCC Bottom Ash |
| Aineto, Monica | Production of Lightweight Aggregates from Coal Gasification Fly Ash and Slag |
| Akomoto, Akimitsu | Coal Ash Utilization in Japan |
| Amonette, James | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Anagnostakis, Marios | Coal Fly-Ash Utilisation in Greece |
| Anagnostakis, Marios | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Andresen, John | Fly Ash Derived Sorbents for CO2 Capture |
| Annandale, John | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Antenucci, Diano | Geopolymerization of Fly Ash |
| Ban, Heng | Determining the Total Leaching Potential of Trace Cationic Elements in Fly Ash Exemplified by Cd(II), Cu(II), and Ni(II) |
| Ban, Heng | The Effect of Ammonia on the Leaching of Cu(II) and Cd(II) from Fly Ash |
| Ban, Heng | The Leaching Behavior of Arsenic and Selenium from Fly Ash |
| Bardhan, Sougata | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Bargaheiser, Keith | Use of Fly Ash to Enhance Sulfate Resistance of Concrete |
| Beasley, Jeff | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Beck, Michel | Inter-laboratory Comparison of Leaching Methods |
| Belz, Giulio | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Belz, Giulio | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Bigham, Jerry | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Bigham, Jerry | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Bittner, James | Triboelectrostatic Fly Ash Beneficiation: An Update on Separation Technologies’ International Operations |
| Blackford, Mark | Particulate emissions from combustion of a coal+tire mixture |
| Blythe, Gary | The Fate of Mercury in Flue Gas Desulfurization Byproduct Gypsum Used for Wallboard Production |
| Boavida, Dulce | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Booth, Andy | Comparative Performance of Beneficiated Run-of-Station Fly Ash as Cement |
| Botha, Francois | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Botha, Francois | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Botha, Francois | New Strategies in the Utilization of FGD Gypsum and Sulfite-rich Materials |
| Boxall, Ian | Keynote Address by Ian Boxall, General Manager of Blue Circle Ash, and Chairman of Ash Development Association of Australia (ADAA) |
| Branam, Tracy | Gauging Success of Coal-Combustion Byproducts Utilization in Indiana Abandoned Mine Land Reclamation |
| Breighner, Erica | Historic Mining Research in Support of Grout Injection |
| Brickett, Lynn | Quantitation and Interpretation of Release of Mercury from Coal Utilization By-Products |
| Brindle, John | Fly Ash from Co-combustion Technology for Use in Concrete Construction |
| Brown, Collette | The Relationship Between Water Quality and Coal Combustion By-Products Placement in an Arid Western Coal Mine |
| Bruce, Robert | Creating Demand for New FGD Gypsum Sources |
| Bryan, Stephen | Advanced Multi-Product Coal Utilization Byproduct Processing Plant |
| Bryant, Mark | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Bryant, Mark | Post-Construction Environmental Monitoring of a Fly Ash Based Road Subbase |
| Buck, John | Bottom Ash Fines as a Soil Amendment for Turfgrass and Site Closure – Laboratory and Mesocosm Studies at PPL Brunner Island and Montour Steam Electric Station |
| Buckley, Tera | Review of State Regulations, Standards, and Practices, Related to the Use of Coal Combustion Products: Texas Review Case Study |
| Buehrer, Rosalice | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Bumrongjaroen, Walairat | Optimization of Silica Fume, Fly Ash and Cement Mixes for High Performance Concrete |
| Burchett, M. | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Burdick, Charles | Current and Potential Use of Coal Ash in Maryland Industries |
| Burgers, Colleen | Inter-laboratory Comparison of Leaching Methods |
| Burken, Joel | The Leaching Behavior of Arsenic and Selenium from Fly Ash |
| Burkett, William | Improving Freezing and Thawing Properties of Flyash Bricks |
| Burns, Perre | Chemical Attenuation of Arsenic Species by Soils from Power Plant Sites |
| Butalia, Tarunjit | A Model to Predict Resilient Modulus of Lime-Fly Ash Stabilized Soils |
| Butalia, Tarunjit | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Butalia, Tarunjit | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Butalia, Tarunjit | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Butalia, Tarunjit | Use of Fly Ash to Enhance Sulfate Resistance of Concrete |
| Camacho, Lucy | Transient Leaching Behavior of Heavy Metals Encapsulated in Fly Ash Solidified/Stabilized Wastes |
| Cangialosi, Federico | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Cangialosi, Federico | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Cannon, Jared | Gas Phase Ammonia Slip Mitigation |
| Caramuscio, Pompilio | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Caramuscio, Pompilio | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Cardone, Carol | Leaching of CUB Using a CSTX |
| Cardone, Carol | Release of Ammonia from SCR / SNCR Fly Ashes |
| Carty, Ronald | Post-Construction Environmental Monitoring of a Fly Ash Based Road Subbase |
| Chemler, Joseph | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Chen, Liming | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Chen, Liming | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Chen, Qingru | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Chen, Yona | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Chen, Yuanzhi | Characterization of Fine and Ultrafine Fly Ash by Electron Microscopy Techniques |
| Cheng, Chin Min | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Cheng, Min | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Cheng, Min | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Cherry, Eric | Computer Simulations of Ammonia Migration from Ash Monofills |
| Chou, Mei-In | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Chou, Mei-In | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Chou, Sheng-Fu | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Chou, Sheng-Fu | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Chugh, Yoginder | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Chugh, Yoginder | Post-Construction Environmental Monitoring of a Fly Ash Based Road Subbase |
| Coca, Pilar | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Comer, John | Gauging Success of Coal-Combustion Byproducts Utilization in Indiana Abandoned Mine Land Reclamation |
| Conn, Christine | Evaluation of Constructed Wetlands for Reducing Sulfate Concentrations in Water Impacted by Leachate from Coal Combustion Products |
| Conn, Richard | Simultaneously Reducing NOx and Slagging on a 300 MW T-Fired Boiler |
| Conrad, Gregory | State Perspectives on Regulation of Mine Placement of Coal Combustion Wastes |
| Conrads, Hans | Real-time Monitoring of Unburned Carbon-in-Ash |
| Cooper, Lisa | Regulatory Aspects Affecting Ash Utilization |
| Copuroglu, Oguzhan | Fly Ash In Concrete: What Happens In The System? |
| Coufal, Ryszard | Peat Consolidation with Bottom Ash - Theory and Practice |
| Cross, Doug | Structural Applications of 100 Percent Fly Ash Concrete |
| Csetenyi, Lazslo | Fly Ash from Co-combustion Technology for Use in Concrete Construction |
| Dalberto, Alfred | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Dalberto, Alfred | Use of Leachate Data in Risk Assessment in Pennsylvania |
| Dale, Deborah | The Use of Neutral Leachate Test Data in Indiana’s Coal Combustion By-Product Disposal Program |
| Daniels, Walter | Inter-laboratory Comparison of Leaching Methods |
| Danilin, Lev | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Danilin, Lev | Functional Materials Based on Cenospheres |
| Davidovits, Joseph | Geopolymerization of Fly Ash |
| De Silva, D. | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| de Spot, Michel | EcoSmart™ Concrete Technology: Enabling Construction Professionals to Use High Volume Fly Ash Concrete in Building and Infrastructure Projects |
| DeBruin, Nathaniel | The Maryland Coal Mine Mapping Project: Providing Access to Historic Maps for Today's Uses |
| Dhir, Ravindra | Fly Ash from Co-combustion Technology for Use in Concrete Construction |
| Di Canio, Francesco | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Dick, Warren | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Dick, Warren | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Dickinson, Tamara | The National Academy of Sciences Evaluation of the Use of Coal Ash in Mining Activities |
| Dicola, Maria | Autoclaved Building Products From FGD Sludges |
| DiGioia, Anthony | Water Quality Changes Related to CUB Bulk Placement at the Rostraver Airport |
| Disney, Philip | FGD Forced Oxidation Mechanism - A Pilot Plant Case Study |
| Dockter, Bruce | Engineering and Environmental Specifications of State Agencies for Utilization and Disposal of Coal Combustion Products |
| Drobniak, Agnieszka | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Drozhzhin, Valeri | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Drozhzhin, Valeri | Functional Materials Based on Cenospheres |
| Drozhzhin, Valeri | Technical Monitoring of Microspheres from Fly Ashes of Electric Power Stations in the Russian Federation |
| Eamus, Derek | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Ehret, Paul | Indiana Experiences Using Coal Ash in Mining Activities |
| Eick, Matt | Inter-laboratory Comparison of Leaching Methods |
| Elliot, Alex | Controlled Release Zeolite Fertilisers: A Value Added Product Produced from Fly Ash |
| Ellman, Richard | Current and Potential Use of Coal Ash in Maryland Industries |
| Erbe, Matthew | Evaluation of Constructed Wetlands for Reducing Sulfate Concentrations in Water Impacted by Leachate from Coal Combustion Products |
| Erdman, James | Cost Optimization Study Using CCP Grout for Deep Mine Restoration |
| Eshel, Ya'akov | Combined Utilization of Bottom Ash and Fly Ash for Lightweight Concrete Production |
| Etchebers, O. | Mineralogy and Trace Element Partitioning in Coal Fly Ash/Acid Mine Drainage Co-Disposed Solid Residues |
| Fagan, Lisa | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Fan, Maoming | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Feeley, Thomas | Welcome - Mr. Thomas Feeley, Technology Manager, U. S. Dept. of Energy National Energy Technology Laboratory, Office of Coal & Power Research & Development |
| Ferguson, E. | Stabilization of Soils with Self-Cementing Coal Ashes |
| Fernandez-Pereira, Constantino | Geopolymerization of Fly Ash |
| Fernandez-Pereira, Constantino | Influence of Fly Ash Unburned Matter Contents on the Fire Resistance Characteristics of Mortars Manufactured Thereof |
| Feuerborn, Hans-Joachim | Present Situation and Perspectives of CCP Management in Europe |
| Filippelli, Gabriel | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Fink, Rebecca | CCB Placement in Texas Mining Activities |
| Font, Oriol | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Fournier, Benoit | Evaluating the Performance of Binary and Ternary Fly Ash-Based Cementitious Systems to Control Expansion Due to ASR in Concrete |
| Fox, John | Changes in Fly Ash With Thermal Treatment |
| Fraaij, Alex | Fly Ash In Concrete: What Happens In The System? |
| French, David | Relation Between Coal And Fly Ash Mineralogy, Based On Quantitative X-Ray Diffraction Methods |
| French, David | The Heavy Metal Leaching Behaviour of Australian Fly Ashes |
| Gailius, A. | Waste-Treated Waste: Stabilization of Colliery Waste from South Wales (UK) using Wastepaper Sludge Ash (WSA) |
| Garcia, Candida | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Gasiorowski, Stephen | Triboelectrostatic Fly Ash Beneficiation: An Update on Separation Technologies’ International Operations |
| Gauthier, Philippe | Combustion Tuning Systems for Control of Unburned Carbon |
| Geertsema, Ari | Welcome - Dr. Ari Geertsema, Director, University of Kentucky Center for Applied Energy Research |
| Gellici, Janet | Coal Combustion Products Economic Impact Assessment |
| Giacinto, Joseph | Potential Massive Use of Coal Ash to Restore Disturbed Hydrogeology |
| Giampa, Vincent | The Fate of Ammonia and Mercury in the Carbon Burn-Out (CBO) Process |
| Giere, Reto | Particulate emissions from combustion of a coal+tire mixture |
| Ginster, Martin | Beneficial Utilisation of Sasol Coal Gasification Ash |
| Ginster, Martin | Detailed Characterisation of Sasol Ashes |
| Ginster, Martin | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Gitari, M. | Mineralogy and Trace Element Partitioning in Coal Fly Ash/Acid Mine Drainage Co-Disposed Solid Residues |
| Gitari, M. | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Glarakis, Ioannis | Mixture of Lignite Fly Ash in Concrete: Physical and Mineralogical Characterization - Case Study from Ptolemais, Northern Greece |
| Glenn, John | C2P2 – Partnership Innovation |
| Glogowski, Phillip | Water Quality Changes Related to CUB Bulk Placement at the Rostraver Airport |
| Goktepe, Burak | Analyses and Design of a Stabilized Fly Ash as Pavement Base Material |
| Golden, Dean | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Golightly, Danold | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Golightly, Danold | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Goncalves, Rita | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Goss, David | C2P2 – Partnership Innovation |
| Goss, David | Interactive Discussion - 3rd Session: Regulation of CCB Placement at Mines |
| Goss, David | Introduction to Session 3 |
| Graham, Paul | Future Ash Availability – Potential Consequences of Transformation of Australia’s Energy Generation Portfolio to 2050 |
| Grammelis, Panagiotis | Coal Fly-Ash Utilisation in Greece |
| Grammelis, Panagiotis | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Gray, Thomas | Ninevah Acid Mine Pollution Abatement Project |
| Greiner, Amie | Inter-laboratory Comparison of Leaching Methods |
| Groppo, John | Advanced Multi-Product Coal Utilization Byproduct Processing Plant |
| Groppo, John | Evaluation of Processed Bottom Ash for Use as Lightweight Aggregate in the Production of Concrete Masonry Units |
| Grutzeck, Michael | Autoclaved Building Products From FGD Sludges |
| Gulyurtlu, Ibrahim | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Gurley, Harrold | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Gurupira, Tapiwa | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Gurupira, Tapiwa | Development of an Automated Foam Index Test |
| Gustin, Frederick | Cold In-Place Recycling of Asphalt Pavements Using Self-Cementing Fly Ash: Field and Laboratory Study |
| Gustin, Mae | Mercury Release from Coal Combustion Products (CCPs) |
| Guynn, Robin | Evaluation of Constructed Wetlands for Reducing Sulfate Concentrations in Water Impacted by Leachate from Coal Combustion Products |
| Guynn, Robin | PPRP Research to Support Coal Combustion Product Management in Maryland |
| Guynn, Robin | Use of a Coal Combustion Product (CCP) Grout to Reduce the Formation of Acid Mine Drainage: An Update on the Winding Ridge Project |
| Hara, Kazuo | Coal Ash Utilization in Japan |
| Hart, Brian | Evaluation of Zeolites Manufactured from Fly Ash as Adsorbents for Ammonium: Implications for a Slow Release Nitrogen Fertilizer |
| Hassett, David | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion |
| Hassett, David | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion (continued) |
| Hassett, David | Determination of Expansion Potential of Coal Utilization By-Products |
| Hassett, David | Inter-laboratory Comparison of Leaching Methods |
| Hassett, David | Organomercury Compound Determination from Microbiologically Mediated CUB Samples |
| Hassett, David | Quantitation and Interpretation of Release of Mercury from Coal Utilization By-Products |
| Hawkey, George | Beneficial Applications of Circulating Fluidized Bed (CFB) Ash at Mississipi Lignite Mining Company's Red Hills Mine |
| Hayden, Don | Evaluation of Zeolites Manufactured from Fly Ash as Adsorbents for Ammonium: Implications for a Slow Release Nitrogen Fertilizer |
| Haynes, Kirk | Improving Freezing and Thawing Properties of Flyash Bricks |
| He, Jianing | Dry Beneficiation of Fly Ash Using Advanced Triboelectrostatic Separation |
| He, Yongtian | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Heebink, Loreal | Determination of Expansion Potential of Coal Utilization By-Products |
| Heebink, Loreal | Inter-laboratory Comparison of Leaching Methods |
| Heebink, Loreal | Organomercury Compound Determination from Microbiologically Mediated CUB Samples |
| Heebink, Loreal | Quantitation and Interpretation of Release of Mercury from Coal Utilization By-Products |
| Heidrich, Craig | Case Study: CCP’s Lowering Greenhouse Gas Emissions for Australia |
| Heidrich, Craig | CCP: Environmental Bonafides for Agricultural Uses |
| Heidrich, Craig | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Helms, Greg | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion |
| Helms, Greg | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion (continued) |
| Hemmings, Raymond | Clean Coal Technology By-Products - An Overview |
| Hemmings, Raymond | Self-Cementing CCP Grouts for Remediation of Abandoned Coal Mines in Western Maryland |
| Hemmings, Raymond | The Kempton Man Shaft Project: Application of CCP Grout as a Seepage Barrier |
| Henke, Kevin | Trace Element Chemistry of Fly Ashes from Co-combusted Petroleum Coke and Coal |
| Hennings, Brian | Field Leachate Characterization at CCP Management Sites |
| Henry, Jeff | Materials Degradation Mechanisms in Coal-Fired Boilers |
| Hensel, Bruce | Field Leachate Characterization at CCP Management Sites |
| Herbert, Martin | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Hesbach, Peter | Inter-laboratory Comparison of Leaching Methods |
| Hesbach, Peter | Rapid Batch Characterization of Coal Utilization By-products |
| Hill, Sharon | Beneficial Use of FBC Coal Ash for Mine Reclamation in the Anthracite Region at the Wheelabrator Frackville Energy Co. and Mount Carmel CoGen Sites |
| Hinczak, Ihor | Case Study: CCP’s Lowering Greenhouse Gas Emissions for Australia |
| Hinis, E. | Coal Fly-Ash Utilisation in Greece |
| Hitch, Jennifer | Overcoming Barriers to CCP Use |
| Hongo, Takashi | Research and Development of Coal Ash Granulated Material for Civil Engineering Applications |
| Hopkins, Leonard | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Horiuchi, Sumio | Coal Ash Utilization in Japan |
| Hornberger, Roger | Beneficial Use of FBC Coal Ash for Mine Reclamation in the Anthracite Region at the Wheelabrator Frackville Energy Co. and Mount Carmel CoGen Sites |
| Hornberger, Roger | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Hornberger, Roger | Diagenesis of FBC ash in a Reclaimed Mine Pit Lake: A Case Study in Long-Term Implementation |
| Hornberger, Roger | Use of Leachate Data in Risk Assessment in Pennsylvania |
| Horrell, J. | Ninevah Acid Mine Pollution Abatement Project |
| Hower, James | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Hower, James | Thermal Stability of Mercury Captured by Ash, Part 2 |
| Huffman, George | Characterization of Fine and Ultrafine Fly Ash by Electron Microscopy Techniques |
| Huggins, Frank | Characterization of Fine and Ultrafine Fly Ash by Electron Microscopy Techniques |
| Intini, Gianluca | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Ishikawa, Yoshitaka | A Study on a Technology to Produce Inorganic Fibers by Melting Coal Ash |
| Iwuoha, E. | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Izquierdo, Maria | Comparison between Laboratory Leaching Properties and Field Experiments of MSWI Bottom Ash as an Unbound Granular Material for Road Pavements |
| Izumo, Yoshitsugu | Research and Development of Coal Ash Granulated Material for Civil Engineering Applications |
| Jagiella, Diana | Engineering and Environmental Specifications of State Agencies for Utilization and Disposal of Coal Combustion Products |
| Jankowski, Jerzy | The Heavy Metal Leaching Behaviour of Australian Fly Ashes |
| Jenkins, John | Cost Optimization Study Using CCP Grout for Deep Mine Restoration |
| Jiang, Xinkai | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Jiang, Xinkai | Dry Beneficiation of Fly Ash Using Advanced Triboelectrostatic Separation |
| Johnson, Craig | Use of Sulfur Isotopes to Monitor Dissolved Sulfate Derived from a Fly Ash Disposal Site, North-Central Colorado |
| Johnson, Stephen | Impact of Carbon-in-Ash on Mercury Removal across Particulate Control Devices in Coal-Fired Power Plants |
| Johnson, Stephen | Integrating Combustion-Collection-Separation-Reinjection Technologies to Reduce Fly Ash Carbon and Increase Ash Value |
| Jones, M. | Comparative Performance of Beneficiated Run-of-Station Fly Ash as Cement |
| Josa, Alejandro | Comparison between Laboratory Leaching Properties and Field Experiments of MSWI Bottom Ash as an Unbound Granular Material for Road Pavements |
| Kairies, Candace | Distribution of Mercury in FGD Sludge |
| Kairies, Candace | Leaching of CUB Using a CSTX |
| Kakaras, E. | Coal Fly-Ash Utilisation in Greece |
| Kakaras, Emmanuel | Mineralogy and Chemical Composition of Greek and Chinese Coal Fly Ash: Research for Potential Applications |
| Kakaras, Emmanuel | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Kalinski, Michael | Hydraulic Conductivity of Compacted Cement-Stabilized Fly Ash |
| Kanazu, Tsutomu | Rapid Evaluation Method of Coal Fly Ash for Pozzolanic Reaction |
| Kania, Timothy | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Karangelos, Dimitrios | Coal Fly-Ash Utilisation in Greece |
| Karangelos, Dimitrios | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Kayali, Obada | Flashag- New Lightweight Aggregate for High-Strength and Durable Concrete |
| Kayali, Obada | High Performance Bricks from Fly Ash |
| Kazonich, George | Effects of pH, ORP, and Conductivity on Leaching of Trace Metals from Fly Ash |
| Keating, Robert | PPRP Research to Support Coal Combustion Product Management in Maryland |
| Keppeler, James | Carbon Burn-Out - A State of the Art in Commercial Ash Beneficiation |
| Key, D. | Mineralogy and Trace Element Partitioning in Coal Fly Ash/Acid Mine Drainage Co-Disposed Solid Residues |
| Key, D. | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Keyte, Louise | The Effect of Coal Ash Glass Chemistry on the Performance Properties of Geopolymeric Products |
| Khovrin, Alexander | Functional Materials Based on Cenospheres |
| Kim, Ann | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion |
| Kim, Ann | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion (continued) |
| Kim, Ann | Factors Controlling the Solubility of Mercury Adsorbed on Fly Ash |
| Kim, Ann | Preferential Acidic, Alkaline and Neutral Solubility of Metallic Elements in Fly Ash |
| Kim, Ann | Rapid Batch Characterization of Coal Utilization By-products |
| Kim, Ann | Release of Ammonia from SCR / SNCR Fly Ashes |
| Kim, Ann | Water Quality Changes Related to CUB Bulk Placement at the Rostraver Airport |
| Kim, Sung-Hwan | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Kim, Sung-Hwan | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Kimoto, Masayoshi | Influence of Coal Properties and Combustion Conditions on Specific Surface Area of Fly Ash |
| Kinuthia, John | Waste-Treated Waste: Stabilization of Colliery Waste from South Wales (UK) using Wastepaper Sludge Ash (WSA) |
| Kirkconnell, Spencer | Carbon Burn-Out - A State of the Art in Commercial Ash Beneficiation |
| Konzal, Mark | Bulk Storage - Technology and Economics |
| Kopczynska, Olga | Peat Consolidation with Bottom Ash - Theory and Practice |
| Koukouzas, Nikolaos | Mineralogy and Chemical Composition of Greek and Chinese Coal Fly Ash: Research for Potential Applications |
| Koukouzas, Nikolaos | Mixture of Lignite Fly Ash in Concrete: Physical and Mineralogical Characterization - Case Study from Ptolemais, Northern Greece |
| Koury, Daniel | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Krause, Kristine | Keynote Address by Kristine Krause, Vice President Environmental, Wisconsin Energy Corporation |
| Kruger, Japie | Reminiscences of the Development of the South African Coal Ash Industry Over the Past 30 Years |
| Kruger, Richard | Fly Ash as a Replacement for Mineral Fillers in the Polymer Industry |
| Kruger, Richard | Reminiscences of the Development of the South African Coal Ash Industry Over the Past 30 Years |
| Kulunchakova, Galina | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Kumar, Sanjeev | Chloride Penetrability of Concrete Composites Made with Illinois PCC Bottom Ash |
| Kuvaev, Mikhail | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Kuvaev, Mikhail | Technical Monitoring of Microspheres from Fly Ashes of Electric Power Stations in the Russian Federation |
| LaBuz, Lawrence | Bottom Ash Fines as a Soil Amendment for Turfgrass and Site Closure – Laboratory and Mesocosm Studies at PPL Brunner Island and Montour Steam Electric Station |
| Ladwig, Kenneth | Chemical Attenuation of Arsenic Species by Soils from Power Plant Sites |
| Ladwig, Kenneth | Evaluating the Performance of Binary and Ternary Fly Ash-Based Cementitious Systems to Control Expansion Due to ASR in Concrete |
| Ladwig, Kenneth | Field Leachate Characterization at CCP Management Sites |
| Ladwig, Kenneth | Mercury Release from Coal Combustion Products (CCPs) |
| Ladwig, Kenneth | The Effect of Ammonia on the Leaching of Cu(II) and Cd(II) from Fly Ash |
| Lamey, Steven | Rapid Batch Characterization of Coal Utilization By-products |
| Lamminen, Mikko | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Lav, Abdullah | Analyses and Design of a Stabilized Fly Ash as Pavement Base Material |
| Lav, M. | Analyses and Design of a Stabilized Fly Ash as Pavement Base Material |
| Lee, Linda | Chemical Attenuation of Arsenic Species by Soils from Power Plant Sites |
| Lee, Linda | Leaching of Constituents inside a Coal Ash Filled Mine Pit and the Resulting Groundwater Quality in the Surrounding Environment |
| Lee, Yong | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Lee, Yong | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Lee, Yong-Woong | A Model to Predict Resilient Modulus of Lime-Fly Ash Stabilized Soils |
| Leiva, Carlos | Influence of Fly Ash Unburned Matter Contents on the Fire Resistance Characteristics of Mortars Manufactured Thereof |
| Lemos de Sousa, Manuel | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Lenke, Lary | Minimum Fly Ash Cement Replacement To Mitigate Alkali Silica Reaction |
| Lewis, Howard | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Li, Huijun | Particulate emissions from combustion of a coal+tire mixture |
| Liberti, Lorenzo | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Liberti, Lorenzo | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Lin, Jin | Characterization of Fly Ashes by Leaching Test |
| Lissianski, Vitali | Enhancement of the “Naturally Occurring” Mercury Capture by Fly Ash |
| Lister, Robert | Bulk Storage - Technology and Economics |
| Litten, Jason | Historic Mining Research in Support of Grout Injection |
| Liu, Henry | Improving Freezing and Thawing Properties of Flyash Bricks |
| Livingston, Richard | Optimization of Silica Fume, Fly Ash and Cement Mixes for High Performance Concrete |
| Lloyd, Redmond | The Effect of Coal Ash Glass Chemistry on the Performance Properties of Geopolymeric Products |
| Lockert, Charles | Integrating Combustion-Collection-Separation-Reinjection Technologies to Reduce Fly Ash Carbon and Increase Ash Value |
| London, Jacqueline | Field Leachate Characterization at CCP Management Sites |
| Loop, Caroline | Diagenesis of FBC ash in a Reclaimed Mine Pit Lake: A Case Study in Long-Term Implementation |
| Lopez-Soler, Angel | Comparison between Laboratory Leaching Properties and Field Experiments of MSWI Bottom Ash as an Unbound Granular Material for Road Pavements |
| Lopez-Soler, Angel | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Lu, Zhe | Fly Ash Derived Sorbents for CO2 Capture |
| Lukey, Grant | Geopolymer Technology: The Formation of Cost-Competitive Construction Materials by the Alkali-Activation of Coal Ash |
| Lukey, Grant | The Effect of Coal Ash Glass Chemistry on the Performance Properties of Geopolymeric Products |
| Lulav, Omri | Coal Ash in Israel from a Waste to a Strategic Resource |
| Lulav, Omri | New Technologies of GlassCeraX Ltd Company - Utilization of Coal Ash |
| Luo, Zhenfu | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Luther, James | The Relationship Between Water Quality and Coal Combustion By-Products Placement in an Arid Western Coal Mine |
| Mackiewicz, Scott | Stabilization of Soils with Self-Cementing Coal Ashes |
| Malhotra, Vivak | New Strategies in the Utilization of FGD Gypsum and Sulfite-rich Materials |
| Malvar, Luis | Minimum Fly Ash Cement Replacement To Mitigate Alkali Silica Reaction |
| Maly, Peter | Enhancement of the “Naturally Occurring” Mercury Capture by Fly Ash |
| Manz, Oscar | Historical Perspective of Coal Ash Marketing and Promotion in the USA |
| Markley, Brandie | Correlation of Fly Ash Carbon Properties and Mercury Uptake Capacities |
| Maroto-Valer, Mercedes | Correlation of Fly Ash Carbon Properties and Mercury Uptake Capacities |
| Maroto-Valer, Mercedes | Fly Ash Derived Sorbents for CO2 Capture |
| Marshall, Jessica | The Fate of Mercury in Flue Gas Desulfurization Byproduct Gypsum Used for Wallboard Production |
| Martinus, Ferdy | Development of an Automated Foam Index Test |
| Maslanka, Jacek | Mechanical Activation of Limestone |
| Mastalerz, Maria | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Matjie, Henry | Beneficial Utilisation of Sasol Coal Gasification Ash |
| Matjie, Henry | Detailed Characterisation of Sasol Ashes |
| Matsuda, Hiromitsu | Influence of Coal Properties and Combustion Conditions on Specific Surface Area of Fly Ash |
| Maximova, Nina | Functional Materials Based on Cenospheres |
| McCarthy, Aikaterini | Comparative Performance of Beneficiated Run-of-Station Fly Ash as Cement |
| McCarthy, Michael | Fly Ash from Co-combustion Technology for Use in Concrete Construction |
| McNeilly, Meghan | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Meiers, Richard | Leaching of Constituents inside a Coal Ash Filled Mine Pit and the Resulting Groundwater Quality in the Surrounding Environment |
| Melick, Todd | Real-time Monitoring of Unburned Carbon-in-Ash |
| Menghini, Michael | Beneficial Use of FBC Coal Ash for Mine Reclamation in the Anthracite Region at the Wheelabrator Frackville Energy Co. and Mount Carmel CoGen Sites |
| Menghini, Michael | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Menghini, Michael | Diagenesis of FBC ash in a Reclaimed Mine Pit Lake: A Case Study in Long-Term Implementation |
| Menghini, Michael | Use of Leachate Data in Risk Assessment in Pennsylvania |
| Merino, Marcelo | Beneficial Applications of Circulating Fluidized Bed (CFB) Ash at Mississipi Lignite Mining Company's Red Hills Mine |
| Michael, Peter | Interactive Discussion - 1st Session: Case Studies of CCB Mine Placement Design, Implementation, and Monitoring |
| Michael, Peter | Introduction to Session 1 |
| Miller, Bruce | Correlation of Fly Ash Carbon Properties and Mercury Uptake Capacities |
| Miller, William | Golf Course Putting Greens Constructed Using Coal Combustion Products (CCP) |
| Minkara, Rafic | 1st Full Scale Installation of Ash Treatment for Ammonia Control |
| Minkara, Rafic | Computer Simulations of Ammonia Migration from Ash Monofills |
| Minkara, Rafic | Evaluations of “Concrete-Friendly” Mercury Sorbents |
| Minkara, Rafic | Gas Phase Ammonia Slip Mitigation |
| Mishra, Suren | The Beneficial Effects of Calcium Chloride Treated Roadways Containing Fly Ash |
| Misra, Anil | Cold In-Place Recycling of Asphalt Pavements Using Self-Cementing Fly Ash: Field and Laboratory Study |
| Mobasher, Barzin | Pultrusion Process for Fabric Reinforced High Flyash Cement Composites |
| Mohanty, Samrat | Post-Construction Environmental Monitoring of a Fly Ash Based Road Subbase |
| Moreno, Natalia | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Mori, Hirofumi | Characterization of Incineration Ashes in Japan |
| Morrison, Anthony | Future Ash Availability – Potential Consequences of Transformation of Australia’s Energy Generation Portfolio to 2050 |
| Moutairou, Iliyassou | Chloride Penetrability of Concrete Composites Made with Illinois PCC Bottom Ash |
| Moyeda, David | Combustion Tuning Systems for Control of Unburned Carbon |
| Munish, Santosh | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Munson-McGee, Stuart | Transient Leaching Behavior of Heavy Metals Encapsulated in Fly Ash Solidified/Stabilized Wastes |
| Murarka, Ishwar | Chemical Attenuation of Arsenic Species by Soils from Power Plant Sites |
| Murarka, Ishwar | Leaching of Constituents inside a Coal Ash Filled Mine Pit and the Resulting Groundwater Quality in the Surrounding Environment |
| Murray, Brad | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Musslewhite, Brent | The Relationship Between Water Quality and Coal Combustion By-Products Placement in an Arid Western Coal Mine |
| Myszkowska, Agnieszka | Peat Consolidation with Bottom Ash - Theory and Practice |
| Nachumi, Amir | New Technologies of GlassCeraX Ltd Company - Utilization of Coal Ash |
| Nakamura, Kazufumi | Characterization of Incineration Ashes in Japan |
| Nambu, Masateru | Characterization of Fly Ashes by Leaching Test |
| Nambu, Masateru | Characterization of Incineration Ashes in Japan |
| Nambu, Masateru | Rapid Evaluation Method of Coal Fly Ash for Pozzolanic Reaction |
| Nasi, Michael | CCB Placement in Texas Mining Activities |
| Nava, J. | Materials Degradation Mechanisms in Coal-Fired Boilers |
| Nel, Johan | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Nelson, Peter | Future Ash Availability – Potential Consequences of Transformation of Australia’s Energy Generation Portfolio to 2050 |
| Nelson, Sid | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Nelson, Sid | Evaluations of “Concrete-Friendly” Mercury Sorbents |
| Nelson, Sid | Evaluations of Fly Ash Containing Brominated Carbon |
| Nicnevich, Mark | Combined Utilization of Bottom Ash and Fly Ash for Lightweight Concrete Production |
| Ninesteel, John | Historic Mining Research in Support of Grout Injection |
| Nishimoto, Satoshi | Reuse of Coal Ash as Civil Engineering Material |
| Noceti, Pierina | Welcoming Remarks and Introduction of Keynote Speaker |
| Norton, Darrell | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Notarnicola, Michele | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Notarnicola, Michele | Combustion Reactivity of Unburned Carbon in Coal Combustion Fly Ashes |
| Nowak, Wojciech | Mechanical Activation of Limestone |
| Nugteren, Henk | Fly Ash as a Replacement for Mineral Fillers in the Polymer Industry |
| Nugteren, Henk | Geopolymerization of Fly Ash |
| Ochsenbein, Melissa | Development of an Automated Foam Index Test |
| Ohnaka, Akira | Coal Ash Utilization in Japan |
| Ohnaka, Akira | Research and Development of Coal Ash Granulated Material for Civil Engineering Applications |
| Ohta, Mikio | Research and Development of Coal Ash Granulated Material for Civil Engineering Applications |
| Okujeni, C. | Mineralogy and Trace Element Partitioning in Coal Fly Ash/Acid Mine Drainage Co-Disposed Solid Residues |
| Okujeni, C. | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Olivares, Joaquin | Influence of Fly Ash Unburned Matter Contents on the Fire Resistance Characteristics of Mortars Manufactured Thereof |
| Owen, Thomas | Beneficial Use of FBC Coal Ash for Mine Reclamation in the Anthracite Region at the Wheelabrator Frackville Energy Co. and Mount Carmel CoGen Sites |
| Owen, Thomas | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Pahilajani, Jitendra | Pultrusion Process for Fabric Reinforced High Flyash Cement Composites |
| Palumbo, Anthony | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Patel, Vinod | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Patwardhan, Amit | Development Of Construction Materials Using Sulfite-Rich Scrubber Sludge And Fly-Ash |
| Pavlenko, Stanislav | New Composite Binder From Secondary Mineral Resources |
| Payne, Roy | Combustion Tuning Systems for Control of Unburned Carbon |
| Peled, Alva | Pultrusion Process for Fabric Reinforced High Flyash Cement Composites |
| Pena, Francisco | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Pepple, Mark | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Perdikatsis, Vassileios | Mineralogy and Chemical Composition of Greek and Chinese Coal Fly Ash: Research for Potential Applications |
| Perrone, Roger | Evaluation of Processed Bottom Ash for Use as Lightweight Aggregate in the Production of Concrete Masonry Units |
| Petrik, Leslie | Development of a Co-Disposal Protocol for the Neutralization and Amelioration of Acid Mine Drainage with Fly Ash |
| Petrik, Leslie | Mineralogy and Trace Element Partitioning in Coal Fly Ash/Acid Mine Drainage Co-Disposed Solid Residues |
| Petrik, Leslie | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Petropoulos, Nikos | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Petzrick, Paul | Cost Optimization Study Using CCP Grout for Deep Mine Restoration |
| Petzrick, Paul | Potential Massive Use of Coal Ash to Restore Disturbed Hydrogeology |
| Petzrick, Paul | PPRP Research to Support Coal Combustion Product Management in Maryland |
| Petzrick, Paul | Self-Cementing CCP Grouts for Remediation of Abandoned Coal Mines in Western Maryland |
| Petzrick, Paul | The Kempton Man Shaft Project: Application of CCP Grout as a Seepage Barrier |
| Petzrick, Paul | Use of a Coal Combustion Product (CCP) Grout to Reduce the Formation of Acid Mine Drainage: An Update on the Winding Ridge Project |
| Pfister, Bruce | To Save Cost, Time and the Environment - Fly Ash Stabilized Highway Sub-grades Win! |
| Pflughoeft-Hassett, Debra | Historical Perspective of Coal Ash Marketing and Promotion in the USA |
| Pflughoeft-Hassett, Debra | Interactive Discussion - 2nd Session: Leaching Protocols and Studies Supporting CCB Risk Assessment at Mines |
| Pflughoeft-Hassett, Debra | Introduction to Session 2 |
| Pflughoeft-Hassett, Debra | Quantitation and Interpretation of Release of Mercury from Coal Utilization By-Products |
| Pflughoeft-Hassett, Debra | Review of State Regulations, Standards, and Practices, Related to the Use of Coal Combustion Products: Texas Review Case Study |
| Phillips, Benjamin | Evaluation of Processed Bottom Ash for Use as Lightweight Aggregate in the Production of Concrete Masonry Units |
| Pikulin, Igor | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Pikulin, Igor | Functional Materials Based on Cenospheres |
| Pikulin, Igor | Technical Monitoring of Microspheres from Fly Ashes of Electric Power Stations in the Russian Federation |
| Pimenov, Vladimir | Functional Materials Based on Cenospheres |
| Potemkin, Grigori | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Powell, Michael | Evaluation of Zeolites Manufactured from Fly Ash as Adsorbents for Ammonium: Implications for a Slow Release Nitrogen Fertilizer |
| Prescott, Corey | The Maryland Coal Mine Mapping Project: Providing Access to Historic Maps for Today's Uses |
| Putilov, Viacheslav | Modern Approach to the Problem of Utilization of Fly Ash and Bottom Ash from Power Plants in Russia |
| Putilova, Irina | Modern Approach to the Problem of Utilization of Fly Ash and Bottom Ash from Power Plants in Russia |
| Querol, Xavier | Comparison between Laboratory Leaching Properties and Field Experiments of MSWI Bottom Ash as an Unbound Granular Material for Road Pavements |
| Querol, Xavier | Differential Behavior of Combustion and Gasification Fly Ash from Puertollano Power Plants (Spain) for Zeolite Synthesis and Silica Extraction |
| Querol, Xavier | Geopolymerization of Fly Ash |
| Rafalko, Leonard | Cost Optimization Study Using CCP Grout for Deep Mine Restoration |
| Rafalko, Leonard | The Kempton Man Shaft Project: Application of CCP Grout as a Seepage Barrier |
| Rafalko, Leonard | Use of a Coal Combustion Product (CCP) Grout to Reduce the Formation of Acid Mine Drainage: An Update on the Winding Ridge Project |
| Raichel, Alexander | New Technologies of GlassCeraX Ltd Company - Utilization of Coal Ash |
| Raichel, Svetlana | New Technologies of GlassCeraX Ltd Company - Utilization of Coal Ash |
| Ramsier, Cliff | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Ramsier, Cliff | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Rathbone, Robert | Advanced Multi-Product Coal Utilization Byproduct Processing Plant |
| Ravina, Dan | Fly Ash to Improve Workability of Structural Concrete Made with Crushed Sand as Fine Aggregate |
| Redyushev, Sergei | Functional Materials Based on Cenospheres |
| Redyushev, Sergei | Technical Monitoring of Microspheres from Fly Ashes of Electric Power Stations in the Russian Federation |
| Reeves, Gary | Potential Massive Use of Coal Ash to Restore Disturbed Hydrogeology |
| Rethman, Norman | Re-Vegetating Mine Land Treated with Alternative Soil Ameliorants |
| Reynolds, Kelley | The Utilisation of an Ash Wall for the Treatment and Control of Acid Mine Drainage |
| Rhudy, Richard | The Fate of Mercury in Flue Gas Desulfurization Byproduct Gypsum Used for Wallboard Production |
| Richardson, Mandi | The Fate of Mercury in Flue Gas Desulfurization Byproduct Gypsum Used for Wallboard Production |
| Rincon, Jesus | Production of Lightweight Aggregates from Coal Gasification Fly Ash and Slag |
| Robl, Thomas | Advanced Multi-Product Coal Utilization Byproduct Processing Plant |
| Robl, Thomas | Introduction of Bart Thomas Award and WOCA Poster Award - Dr. Thomas Robl, Associate Director, University of Kentucky Center for Applied Energy Research |
| Romero, Maximina | Production of Lightweight Aggregates from Coal Gasification Fly Ash and Slag |
| Roohanirad, Ali | Cold In-Place Recycling of Asphalt Pavements Using Self-Cementing Fly Ash: Field and Laboratory Study |
| Rosenmerkel, James | To Save Cost, Time and the Environment - Fly Ash Stabilized Highway Sub-grades Win! |
| Rubel, Aurora | Thermal Stability of Mercury Captured by Ash, Part 2 |
| Ruther, Rose | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Ryan, Bridget | Case Study: CCP’s Lowering Greenhouse Gas Emissions for Australia |
| Saeki, Tatsuhiko | Characterization of Fly Ashes by Leaching Test |
| Sager, John | C2P2 – Partnership Innovation |
| Sager, John | Review of State Regulations, Standards, and Practices, Related to the Use of Coal Combustion Products: Texas Review Case Study |
| Saraber, Angelo | Assessment of Co-Combustion Fly Ashes for Use in Concrete |
| Sarkus, Thomas | Keynote Address by Thomas A. Sarkus, Division Director, Advanced Energy Systems Division, National Energy Technology Laboratory |
| Sato, Atsuko | Reuse of Coal Ash as Civil Engineering Material |
| Saylak, Donald | The Beneficial Effects of Calcium Chloride Treated Roadways Containing Fly Ash |
| Scheetz, Barry | Autoclaved Building Products From FGD Sludges |
| Scheetz, Barry | Beneficial Use of FBC Coal Ash for Mine Reclamation in the Anthracite Region at the Wheelabrator Frackville Energy Co. and Mount Carmel CoGen Sites |
| Scheetz, Barry | Coal Ash Beneficial Use at Mine Sites in Pennsylvania |
| Scheetz, Barry | Diagenesis of FBC ash in a Reclaimed Mine Pit Lake: A Case Study in Long-Term Implementation |
| Schlossberg, Maxim | Golf Course Putting Greens Constructed Using Coal Combustion Products (CCP) |
| Schroeder, Karl | Distribution of Mercury in FGD Sludge |
| Schroeder, Karl | Effects of pH, ORP, and Conductivity on Leaching of Trace Metals from Fly Ash |
| Schroeder, Karl | Factors Controlling the Solubility of Mercury Adsorbed on Fly Ash |
| Schroeder, Karl | Leaching of CUB Using a CSTX |
| Schroeder, Karl | Release of Ammonia from SCR / SNCR Fly Ashes |
| Sear, Lindon | European Legislation in the UK - a Threat or an Opportunity? |
| Seeker, William | Combustion Tuning Systems for Control of Unburned Carbon |
| Seeker, William | Enhancement of the “Naturally Occurring” Mercury Capture by Fly Ash |
| Senior, Constance | Impact of Carbon-in-Ash on Mercury Removal across Particulate Control Devices in Coal-Fired Power Plants |
| Shah, Naresh | Characterization of Fine and Ultrafine Fly Ash by Electron Microscopy Techniques |
| Shan, Jiefeng | Simultaneously Reducing NOx and Slagging on a 300 MW T-Fired Boiler |
| Shang, Julie | Coal Fly Ash as Contaminant Barriers for AMD Generating Mine Tailings |
| Shirai, Hiromi | Influence of Coal Properties and Combustion Conditions on Specific Surface Area of Fly Ash |
| Shon, C. | The Beneficial Effects of Calcium Chloride Treated Roadways Containing Fly Ash |
| Shpirt, Mikhail | Formation of Hollow Microspheres in Fly Ashes of Electric Power Stations |
| Shpirt, Mikhail | Technical Monitoring of Microspheres from Fly Ashes of Electric Power Stations in the Russian Federation |
| Silsbee, Michael | Autoclaved Building Products From FGD Sludges |
| Simopoulos, S. | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Sirotin, Gregory | Combined Utilization of Bottom Ash and Fly Ash for Lightweight Concrete Production |
| Skilliter, Deborah | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Skodras, George | Coal Fly-Ash Utilisation in Greece |
| Skodras, George | Utilisation of Biomass Co-combustion Residues from Pulverised Coal Boilers |
| Slater, Brian | Beneficial Use of CCP’s in Agronomic and Horticulture Applications |
| Slater, Brian | Increased Crop Yield and Economic Return and Improved Soil Quality Due to Land Application of FGD-Gypsum |
| Smith, Hendrik | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Smith, Katherine | Particulate emissions from combustion of a coal+tire mixture |
| Smith, Peter | Sustainable Utilization of Fly Ash in the Cement Industry |
| Smith, Ronald | Gauging Success of Coal-Combustion Byproducts Utilization in Indiana Abandoned Mine Land Reclamation |
| Smyrniotis, Christopher | Controlling Fouling & Slagging in Coal Fired Utility Boilers: Technology and Experience |
| Sobiecki, A. | Detailed Characterisation of Sasol Ashes |
| Somerset, Vernon | Treatment of Acid Mine Drainage with Fly Ash: Removal of Major, Minor Elements, SO4 and Utilization of the Solid Residues for Wastewater Treatment |
| Sommer, Todd | Real-time Monitoring of Unburned Carbon-in-Ash |
| Song, Huanbin | Comprehensive Application New Technique of Chinese Coal Ash and Its Development Tendency |
| Stencel, John | Characteristics of Fly Ashes and Processing Conditions Affecting Carbon-Ash Separation under Pneumatic Transport, Triboelectric Processing |
| Stencel, John | Development of an Automated Foam Index Test |
| Stephens, Jerry | Structural Applications of 100 Percent Fly Ash Concrete |
| Stewart, Andrew | Coal Combustion Products Economic Impact Assessment |
| Stillwagon, Mark | Sustainable Utilization of Fly Ash in the Cement Industry |
| Stokes, Jonathan | Cold In-Place Recycling of Asphalt Pavements Using Self-Cementing Fly Ash: Field and Laboratory Study |
| Stucki, Joseph | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Sun, Ping | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Sun, Ping | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Surender, Damini | Development of a Co-Disposal Protocol for the Neutralization and Amelioration of Acid Mine Drainage with Fly Ash |
| Szczygielski, Tomasz | Peat Consolidation with Bottom Ash - Theory and Practice |
| Szymanek, Arkadiusz | Mechanical Activation of Limestone |
| Tackett, David | Creating Demand for New FGD Gypsum Sources |
| Taerakul, Panuwat | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Taerakul, Panuwat | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Taerakul, Panuwat | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Tanosaki, Takao | Characterization of Fly Ashes by Leaching Test |
| Tanosaki, Takao | Characterization of Incineration Ashes in Japan |
| Tanosaki, Takao | Rapid Evaluation Method of Coal Fly Ash for Pozzolanic Reaction |
| Tao, Daniel | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Tao, Daniel | Dry Beneficiation of Fly Ash Using Advanced Triboelectrostatic Separation |
| Tao, Xiuxiang | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Tapp, Kenneth | Advanced Multi-Product Coal Utilization Byproduct Processing Plant |
| Tarver, Jana | Potential for metal leaching and toxicity from fly ash applied for increasing carbon sequestration in soil |
| Teng, Xinjun | The Effect of Ammonia on the Leaching of Cu(II) and Cd(II) from Fly Ash |
| Todd, Lee | Welcome - Dr. Lee Todd, President, University of Kentucky |
| Traina, Samuel | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Truter, Wayne | Monitoring Vegetation Adaptability and Survival on Co-Disposed Industrial Waste Materials with Coarse-Ash Produced from a Coal Gasification Plant |
| Truter, Wayne | Re-Vegetating Mine Land Treated with Alternative Soil Ameliorants |
| Upadhyaya, Sushant | Cold In-Place Recycling of Asphalt Pavements Using Self-Cementing Fly Ash: Field and Laboratory Study |
| Vale, Jose | Influence of Fly Ash Unburned Matter Contents on the Fire Resistance Characteristics of Mortars Manufactured Thereof |
| Valentim, Bruno | Characterization of Coal Fly Ash from a Portuguese Power Plant |
| Van Alphen, Chris | Detailed Characterisation of Sasol Ashes |
| van den Berg, Jan | Assessment of Co-Combustion Fly Ashes for Use in Concrete |
| van Deventer, Jannie | Geopolymer Technology: The Formation of Cost-Competitive Construction Materials by the Alkali-Activation of Coal Ash |
| van Deventer, Jannie | The Effect of Coal Ash Glass Chemistry on the Performance Properties of Geopolymeric Products |
| Vassilatos, Charis | Mixture of Lignite Fly Ash in Concrete: Physical and Mineralogical Characterization - Case Study from Ptolemais, Northern Greece |
| Vatsky, Joel | Simultaneously Reducing NOx and Slagging on a 300 MW T-Fired Boiler |
| Vazquez, Enric | Comparison between Laboratory Leaching Properties and Field Experiments of MSWI Bottom Ash as an Unbound Granular Material for Road Pavements |
| Vilches, Luis | Influence of Fly Ash Unburned Matter Contents on the Fire Resistance Characteristics of Mortars Manufactured Thereof |
| Vinson, Larraine | FGD Forced Oxidation Mechanism - A Pilot Plant Case Study |
| Vollmer, Jason | Structural Applications of 100 Percent Fly Ash Concrete |
| Vom Berg, Wolfgang | Present Situation and Perspectives of CCP Management in Europe |
| Voros, Andrew | Alkaline Activated Coal Ash and Dredged Material in the Remediation of Very Large Mine Sites |
| Walker, Harold | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Walker, Harold | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Walker, Harold | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Walker, Harold | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Walker, Harold | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Wallschlager, Dirk | Field Leachate Characterization at CCP Management Sites |
| Wang, Hongliu | Coal Fly Ash as Contaminant Barriers for AMD Generating Mine Tailings |
| Wang, Jianmin | Determining the Total Leaching Potential of Trace Cationic Elements in Fly Ash Exemplified by Cd(II), Cu(II), and Ni(II) |
| Wang, Jianmin | The Effect of Ammonia on the Leaching of Cu(II) and Cd(II) from Fly Ash |
| Wang, Jianmin | The Leaching Behavior of Arsenic and Selenium from Fly Ash |
| Wang, Tian | Determining the Total Leaching Potential of Trace Cationic Elements in Fly Ash Exemplified by Cd(II), Cu(II), and Ni(II) |
| Wang, Tian | The Leaching Behavior of Arsenic and Selenium from Fly Ash |
| Ward, Colin | Relation Between Coal And Fly Ash Mineralogy, Based On Quantitative X-Ray Diffraction Methods |
| Ward, Colin | The Heavy Metal Leaching Behaviour of Australian Fly Ashes |
| Ward, John | Review of State Regulations, Standards, and Practices, Related to the Use of Coal Combustion Products: Texas Review Case Study |
| Warner, Nathaniel | The Kempton Man Shaft Project: Application of CCP Grout as a Seepage Barrier |
| Warnock, Daniel | Plant Growth in Sandy Soil/Compost Mixture and Commercial Peat Moss both Amended with Illinois Coal Fly Ash |
| Weavers, Linda | Chemical Composition and Leaching Characteristics of Ash collected from the Ohio State Coal Ash Regeneration (OSCAR) Process |
| Weavers, Linda | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| White, William | Diagenesis of FBC ash in a Reclaimed Mine Pit Lake: A Case Study in Long-Term Implementation |
| Whitlatch, E. | Short- and Long-Term Behavior of Fixated FGD Material Grout at the Roberts-Dawson Mine |
| Widmer, Neil | Combustion Tuning Systems for Control of Unburned Carbon |
| Williams, Brent | The Kempton Man Shaft Project: Application of CCP Grout as a Seepage Barrier |
| Williams, Charles | Commercialization of Fired Paving Bricks with Class F Fly Ash from Illinois Basin Coals |
| Wolfe, William | A Model to Predict Resilient Modulus of Lime-Fly Ash Stabilized Soils |
| Wolfe, William | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Wolfe, William | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Wolfe, William | Mercury Emissions from Concrete Containing Fly Ash and Mercury-Loaded Powdered Activated Carbon |
| Xin, Mei | Mercury Release from Coal Combustion Products (CCPs) |
| Xu, Wendong | Mineralogy and Chemical Composition of Greek and Chinese Coal Fly Ash: Research for Potential Applications |
| Yamamoto, Takeshi | Rapid Evaluation Method of Coal Fly Ash for Pozzolanic Reaction |
| Yamazaki, Yuko | Coal Ash Utilization in Japan |
| Yang, Yufen | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Yerra, Praveen | Hydraulic Conductivity of Compacted Cement-Stabilized Fly Ash |
| Yoshiaki, Sakai | Coal Ash Utilization in Japan |
| Yunusa, Isa | Coal-ash: an exploitable resource for management of Australia agricultural soils? |
| Zacher, Erick | Determination of Expansion Potential of Coal Utilization By-Products |
| Zacher, Erick | Organomercury Compound Determination from Microbiologically Mediated CUB Samples |
| Zacher, Erick | Quantitation and Interpretation of Release of Mercury from Coal Utilization By-Products |
| Zand, Behrad | Accelerated Load Testing of Full-Scale CCP Pavements – Part A (Laboratory Experiments, Mix and Pavement Design) |
| Zand, Behrad | Accelerated Load Testing of Full-Scale CCP Pavements – Part B (Construction, Instrumentation, and Monitoring) |
| Zeng, Rongshu | Mineralogy and Chemical Composition of Greek and Chinese Coal Fly Ash: Research for Potential Applications |
| Zhai, Fengrui | Comprehensive Application New Technique of Chinese Coal Ash and Its Development Tendency |
| Zhang, Dong-ke | Controlled Release Zeolite Fertilisers: A Value Added Product Produced from Fly Ash |
| Zhang, Lili | Comprehensive Application New Technique of Chinese Coal Ash and Its Development Tendency |
| Zhang, Yinzhi | Evaluations of “Concrete-Friendly” Mercury Sorbents |
| Zhang, Yinzhi | Evaluations of Fly Ash Containing Brominated Carbon |
| Zhao, Yuemin | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Zhou, Qunhui | Evaluations of “Concrete-Friendly” Mercury Sorbents |
| Zhou, Qunhui | Evaluations of Fly Ash Containing Brominated Carbon |
| Zhu, Jinbo | Coal Ash Beneficiation and Utilization in Coal Separation Process |
| Zhu, Jinbo | Dry Beneficiation of Fly Ash Using Advanced Triboelectrostatic Separation |
| Zielinski, Robert | Use of Sulfur Isotopes to Monitor Dissolved Sulfate Derived from a Fly Ash Disposal Site, North-Central Colorado |
| Ziemkiewicz, Paul | Coal Ash Leaching Behavior in Acid Mine Drainage: Comparison of Laboratory and Field Studies |
| Ziemkiewicz, Paul | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion |
| Ziemkiewicz, Paul | Descriptions and Comparisons of Leaching Procedures Applied to CCBs: A Panel Discussion (continued) |
| Zimmerer, Matthew | Associations of Mercury in Indiana Coals and Their Fly Ash; Insights from a Sequential Extraction Technique |
| Zimmerer, Matthew | Thermal Stability of Mercury Captured by Ash, Part 2 |