崔丽杰-中国科学院大学-UCAS

基本信息

崔丽杰化学工程学院
电子邮件： ljcui@ucas.ac.cn
通信地址：玉泉路甲19号
邮政编码： 100049

研究领域

主要研究方向：可再生能源的开发与利用，固体燃料清洁转化；颗粒系统的数值模拟。

主要成果：

1) 在可再生能源特别是生物质能源的利用及固体燃料的梯级高效、洁净转化，污染物的迁移机理和防治方法的研究中取得了相应成果。

2) 在颗粒系统的数值模拟尤其在颗粒间的流动和混合模拟中取得了一定结果。

工作经历

2005.6至2007.1 在中国科学院过程工程研究所工作；
2007.1至今中国科学院大学化工学院工作。

科研活动

论文

1.Bubble behavior in electrocatalytic processes. Renewable and Sustainable Energy Reviews 10.1016/j.rser.2025.116174.

2 Unsupported FeCo alloy catalyst for efficient and robust ammonia decomposition: Bimetallic synergy effects. Applied Surface Science 10.1016/j.apsusc.2025.164687.

3.In-situ nitrogen-doped porous carbon derived from penicillin mycelial residue for CO₂ adsorption and adsorption mechanism investigation，Fuel/2025

4.Effect of metals in coke-based additives on NO generation kinetics and mechanism during briquette combustion，Chemical Engineering Science/2025

5.DEM investigation on the dynamic characteristics of wall normal stress and particle flow during silo discharge，Powder Technology/2024

6.Emission Characteristics of NOx and SO₂ during the Combustion of Antibiotic Mycelial Residue， Int. J. Environ. Res. Public Health/2022

7.Size Control of MoSx Catalysts by Diffusion Limitation for Electrocatalytic Hydrodesulfurization，INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH/2022

8. Petroleum-like fuels with substantially enriched branched iso-paraffins and benzenes via boehmite-assisted pyrolysis of oil shale，Fuel/2024

9.DEM investigation on the size effect in the fragmentation of intact aggregates，Powder Technology/2023

10.High-quality petroleum-like fuels and/or profitable value-added platform chemicals manufactured via a solid acid-catalyzed two-stage fast oil shale pyrolysis， Fuel/2023

研究领域

工作经历

科研活动

论文

2 Unsupported FeCo alloy catalyst for efficient and robust ammonia decomposition: Bimetallic synergy effects. Applied Surface Science 10.1016/j.apsusc.2025.164687.

3.In-situ nitrogen-doped porous carbon derived from penicillin mycelial residue for CO₂ adsorption and adsorption mechanism investigation，Fuel/2025

4.Effect of metals in coke-based additives on NO generation kinetics and mechanism during briquette combustion，Chemical Engineering Science/2025

5.DEM investigation on the dynamic characteristics of wall normal stress and particle flow during silo discharge，Powder Technology/2024

6.Emission Characteristics of NOx and SO₂ during the Combustion of Antibiotic Mycelial Residue， Int. J. Environ. Res. Public Health/2022

7.Size Control of MoSx Catalysts by Diffusion Limitation for Electrocatalytic Hydrodesulfurization，INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH/2022

8. Petroleum-like fuels with substantially enriched branched iso-paraffins and benzenes via boehmite-assisted pyrolysis of oil shale，Fuel/2024

9.DEM investigation on the size effect in the fragmentation of intact aggregates，Powder Technology/2023

10.High-quality petroleum-like fuels and/or profitable value-added platform chemicals manufactured via a solid acid-catalyzed two-stage fast oil shale pyrolysis， Fuel/2023

11.Flash pyrolysis of oil shale assisted by Zr-doped TiOSO4 nanocomposites: Excellent selectivity for hydrocarbons and toluene，Fuel/2023

12Flow behavior of granular material during funnel and mixed flow discharges: A comparative analysis，Powder Technology/2022

13.Particle-resolved simulation of randomly packed pebble beds with a novel fluid-solid coupling method，FUSION ENGINEERING AND DESIGN/2020

研究领域

工作经历

科研活动

论文

﻿2 Unsupported FeCo alloy catalyst for efficient and robust ammonia decomposition: Bimetallic synergy effects. Applied Surface Science 10.1016/j.apsusc.2025.164687.

3.In-situ nitrogen-doped porous carbon derived from penicillin mycelial residue for CO2 adsorption and adsorption mechanism investigation，Fuel/2025

4.Effect of metals in coke-based additives on NO generation kinetics and mechanism during briquette combustion，Chemical Engineering Science/2025

5.DEM investigation on the dynamic characteristics of wall normal stress and particle flow during silo discharge，Powder Technology/2024

6.Emission Characteristics of NOx and SO2 during the Combustion of Antibiotic Mycelial Residue， Int. J. Environ. Res. Public Health/2022

7.Size Control of MoSx Catalysts by Diffusion Limitation for Electrocatalytic Hydrodesulfurization，INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH/2022

8. Petroleum-like fuels with substantially enriched branched iso-paraffins and benzenes via boehmite-assisted pyrolysis of oil shale，Fuel/2024

9.DEM investigation on the size effect in the fragmentation of intact aggregates，Powder Technology/2023

10.High-quality petroleum-like fuels and/or profitable value-added platform chemicals manufactured via a solid acid-catalyzed two-stage fast oil shale pyrolysis， Fuel/2023

11.Flash pyrolysis of oil shale assisted by Zr-doped TiOSO4 nanocomposites: Excellent selectivity for hydrocarbons and toluene，Fuel/2023

12Flow behavior of granular material during funnel and mixed flow discharges: A comparative analysis，Powder Technology/2022

13.Particle-resolved simulation of randomly packed pebble beds with a novel fluid-solid coupling method，FUSION ENGINEERING AND DESIGN/2020

2 Unsupported FeCo alloy catalyst for efficient and robust ammonia decomposition: Bimetallic synergy effects. Applied Surface Science 10.1016/j.apsusc.2025.164687.

3.In-situ nitrogen-doped porous carbon derived from penicillin mycelial residue for CO₂ adsorption and adsorption mechanism investigation，Fuel/2025

6.Emission Characteristics of NOx and SO₂ during the Combustion of Antibiotic Mycelial Residue， Int. J. Environ. Res. Public Health/2022