汪琦，男，1960年6月1日出生，1982年毕业于辽宁科技大学，获得学士；1985年毕业于鞍山钢铁学院，获得硕士学位；1998年毕业于东北大学，获得博士学位。1985年参加工作。现任学科评议组成员、辽宁科技大学冶金工程学科教授（二级）、博士研究生导师、化学冶金工程辽宁省重点实验室主任。

(1) 多相反应动力学

(2) 高炉、非高炉炼铁理论与技术

(3) 冶金用燃料性质及其评价方法

(4) 固体废弃物处理技术

（1）“铁氧化物/碳混合物非等温还原的耦合气-固反应动力学解析”，国家自然科学基金；

（2）“利用菱镁石尾矿和铁精矿合成高炉热风炉用镁铁系蓄热材料反应机理研究”，国家自然科学基金；

（3）现代大型高炉用低成本冶金焦炭新技术开发研究，鞍山钢铁集团；

（4）固体反应过程中双相界面层形成的物理化学(51634004)，国家自然科学基金重点项目。

铁矿含碳球团技术,(ISBN 7-5024-3624-3)冶金工业出版社。国家自然科学基金成果专著出版基金。

汪琦教授发表了多篇学术论文，其中包括：

- New insight into absorption characteristics of CO2 on the surface of 方解石, dolomite, and magnesite, Applied Surface Science, 540 (2021) 148320.

- In Situ Observation of the Precipitation, Aggregation, and Dissolution Behaviors of 锡 Inclusion on the Surface of Liquid GCr15 Bearing Steel, Metallurgical and Materials Transactions B, (2018) volume 49, pages3137–3150.

- Evidence of Multi-step Nucleation Leading to Various Crystallization Pathways from an Fe-O-Al Melt, Scientific Reports, (2015) 5082-4.

- Nanostructured 钨 trioxide prepared at various growth temperatures for sensing applications, Journal of Alloys and Compounds, (2020) 825.

- Structural evolution of calcia during 钙 deoxidation in Fe–O–Ca melt, Physical Chemistry Chemical Physics, (2019),21, 13847-13855.

- Discriminable Sensing Response Behavior to Homogeneous Gases Based on n-ZnO/p-NiO Composites, Nanomaterials, 2020, 10(4).

- Roles of MgO and Al2O3 on the Viscous and Structural Behavior of Blast Furnace Primary Slag, Part 1: C/S = 1.3 Containing TiO2, Metals, (2019) 9-8.

- Influences of Al2O3 and TiO2Content on Viscosity and Structure of CaO–8%MgO–Al2O3–SiO2–TiO2–5%FeO Blast Furnace Primary Slag, Metals, (2019) 9-7.

- Effect of Mineral Elements Migration on Softening–melting Properties of Ti–bearing High Basicity Sinter, ISIJ International, (2019) 59-2.

- The effects of MgO and Al2O3 behaviours on softening–melting properties of high basicity sinter, Ironmaking \u0026 Steelmaking, (2018) 45-8.

- A highly sensitivity and selectivity Pt-SnO2 nanoparticles for sensing applications at extremely low level 氢 gas detection, Journal of Alloys and Compounds, (2019) 805.

- Relevance between Various Phenomena during Coking Coal Carbonization. Part 1: A New Testing Method Developed on a Sapozhnikov Plastometer, 能量 \u0026 Fuels, 32 (2018) 7438-43.

- A new testing and evaluating method of cokes with greatly varied CRI and CSR, Fuel, (2016) 182.

- Relevance between various phenomena during coking coal carbonization. Part 2: Phenomenon occurring in the plastic layer formed during carbonization of a coking coal, Fuel, (2019) 253.

- Coke solution-loss degradation model with non-equimolar diffusion and changing local pore structure, Fuel, (2020) 116694.

- 质量 transfer coefficient and effective internal diffusion coefficient for coke solution loss reaction with non-equimolar diffusion, Fuel, (2020) 118225.

- Effects of Stefan Flow on Metallurgical Coke Gasification with CO2, 能量 \u0026 Fuels, 34 (2020) 2936-2944.

- CO2 capture and separation on charge−modulated 方解石, Applied surface Science, (2020) 147265.

- Evolution of calcite surface reconstruction and interface adsorption of calcite-CO2 with 温度, Materials Research Express, 6 (2019) 025035.

- Adsorption Kinetics of CO2 on a Reconstructed 方解石 surface: An Experiment-Simulation Collaborative Method, 能量 \u0026 Fuels, 33 (2019) 8946-8953.