| 2023 | Dr. Hauke Bartusch | Improving Blast Furnace Efficiency and Reducing Carbon Emissions With Blast Furnace Oxygen Pulsing Technology | Josef S. Kapitan Award - Ironmaking |
| 2023 | Mr. Ross Edmond | Improving Blast Furnace Efficiency and Reducing Carbon Emissions With Blast Furnace Oxygen Pulsing Technology | Josef S. Kapitan Award - Ironmaking |
| 2023 | Dr. Rainer Klock | Improving Blast Furnace Efficiency and Reducing Carbon Emissions With Blast Furnace Oxygen Pulsing Technology | Josef S. Kapitan Award - Ironmaking |
| 2023 | Mr. Bartosz Smaha | Improving Blast Furnace Efficiency and Reducing Carbon Emissions With Blast Furnace Oxygen Pulsing Technology | Josef S. Kapitan Award - Ironmaking |
| 2022 | Mr. Tetsuya Yamamoto | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Issui Akishika | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Yusuke Dohi | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Kiyoshi Fukada | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Daisuke Igawa | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Mikiya Nagayama | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Izumi Shimoyama | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Mr. Hiroyuki Sumi | Effective Utilization Techniques for Coal Having High Maximum Fluidity based on Unique Permeation Distance Evaluation | Josef S. Kapitan Award - Cokemaking |
| 2022 | Ms. Janice Bolen | Addition of Scrap and DRI/HBI to the Blast Furnace - Technology to Overcome Top Temperature Limits and Reduce Greenhouse Gas Emissions | Josef S. Kapitan Award - Ironmaking |
| 2022 | Mr. Ian A. Cameron | Addition of Scrap and DRI/HBI to the Blast Furnace - Technology to Overcome Top Temperature Limits and Reduce Greenhouse Gas Emissions | Josef S. Kapitan Award - Ironmaking |
| 2022 | Dr. Mitren Sukhram | Addition of Scrap and DRI/HBI to the Blast Furnace - Technology to Overcome Top Temperature Limits and Reduce Greenhouse Gas Emissions | Josef S. Kapitan Award - Ironmaking |
| 2022 | Mr. Don N. Tu | Addition of Scrap and DRI/HBI to the Blast Furnace - Technology to Overcome Top Temperature Limits and Reduce Greenhouse Gas Emissions | Josef S. Kapitan Award - Ironmaking |
| 2022 | Ms. Jennifer Woloshyn | Addition of Scrap and DRI/HBI to the Blast Furnace - Technology to Overcome Top Temperature Limits and Reduce Greenhouse Gas Emissions | Josef S. Kapitan Award - Ironmaking |
| 2021 | Dr. Louis Giroux | Coal Rheology - The Effect of Rank and Sample Preparation on Test Results | Josef S. Kapitan Award - Cokemaking |
| 2021 | Mr. Ted W. Todoschuk | Coal Rheology - The Effect of Rank and Sample Preparation on Test Results | Josef S. Kapitan Award - Cokemaking |
| 2021 | Mr. John D'Alessio | Investigation of High-Rate and Pre-Heated Natural Gas Injection in the Blast Furnace | Josef S. Kapitan Award - Ironmaking |