1.研究领域

（1）复杂能源系统的建模、评价及优化

（2）大规模长周期储能燃料合成及利用

（3）新型储能中的传热元件设计与仿真

（4）能量转化中的先进检测技术及应用

 

2. 发表论文

[1] Li Qiao, Song Guohui (二作), Xiao Jun, et al. Exergy analysis of biomass staged-gasification for hydrogen-rich syngas. International Journal of Hydrogen Energy, 2019, 44(5): 2569-2579.

[2] Li Qiao, Song Guohui (二作), Xiao Jun, et al. Exergetic life cycle assessment of hydrogen production from biomass staged-gasification. Energy, 2020, 190: 116416.

[3] Song Guohui (一作), Zhao Liang, Zhao Hao, et al. Design and assessment of a novel cogeneration process of synthetic natural gas and char via biomass pyrolysis-coupled hydrothermal gasification. Industrial & Engineering Chemistry Research, 2020, 59(51): 22205-22214.

[4] Song Guohui (一作), Wang Liang, Yao Ailin, et al. Technical and economic assessment of a high-quality syngas production process integrating oxygen gasification and water electrolysis: the Chinese case. ACS Omega, 2021;6:27851−27864.

[5] Cui Xiaobo, Song Guohui (通讯，二作), Yao Ailin, et al. Technical and Economic Assessments of a novel biomass-to-synthetic natural gas (SNG) process integrating O₂-enriched air. Process Safety and Environmental Protection, 2021; 156:417–428.

[6] Song Guohui (一作), Zhao Shanhui, Wang Xiang, et al. An efficient biomass and renewable power-to-gas process integrating electrical heating gasification. Case Studies in Thermal Engineering, 2022,30: 101735−101747.

[7] Song Guohui (一作), Qiao Haiqing, Gu Haiming, et al. Exergetic Comparison of Electrical Heating Gasification and Water Electrolysis Assisted Gasification for Renewable Electricity Storage. BioResources, 2022, 17(1): 993-1000. 

[8] Song Guohui (一作), Xiao Jun, Yan Chao, et al.  Quality of gaseous biofuels: Statistical assessments and guidance on production technologies. Renewable & Sustainable Energy Reviews, 2022, 169: 112959. （能源领域顶刊）

[9] Zhao Hao, Song Guohui (二作), Chen Zhe, et al. In situ identification of NNH and N₂H₂ by using molecular-beam mass spectrometry in plasma-assisted catalysis for NH₃ synthesis. ACS Energy Letters, 2022, 7(1): 53-58.（能源领域顶刊）

[10] Gu Haiming, Song Guohui (二作), Niu Miaomiao, et al. Sr2CeO4 as a robust high temperature sorbent for CO2 capture with near 100% sorbent conversion efficiency[J]. Chemical Engineering Journal, 2022, 441: 135942.

[11] Cui Xiaobo, Xu Pan, Song Guohui (三作), et al. PID Control of a Superheated Steam Temperature System Based on Integral Gain Scheduling[J]. Energies, 2022, 15(23): 8978.

[12] Song Guohui (一作), Qi Zhao, Baohua Shao, et al. Life cycle assessment of greenhouse gas (GHG) and NOx emissions of power-to-H₂-power technology integrating hydrogen-fueled gas turbine. Energies, 2023, 16: 977. 

[13] Song Guohui (一作), Cui Xiaobo, Wang Liang, et al. Comparative assessment of biomass and power-to-gas processes integrated with different electricity-driven gasification technologies. Clean Technologies, 2025, 7(1): 7.

[14] Song Guohui (一作), Chen Yumeng, He Yingfeng, et al. Techno-economic and life cycle greenhouse gas assessment of green ammonia produced by low-pressure Haber-Bosch process. Energy Nexus, 2025, 17: 100379.

 

2). 部分中文论文

[1] 宋国辉, 梁珑鑫, 叶荣昕, 等. CO₂与绿氢合成甲醇的过程模拟及储能性能分析[J]. 可再生能源, 2024, 42(6): 725-731. (中文核心)

[2] 宋国辉, 赵亮, 王金平, 等. 绿电耦合生物质制甲醇的储能－释能效率和碳排放[J]. 太阳能学报, 2024,12(45): 478-484. (EI)

[3] 陈杰，盛志高，宋国辉，等. 液氢储能技术的能量转换效率与能耗分析[C]. 第三届江苏电力“碳达峰碳中和”技术研讨会, 2024 .(优秀论文) 

3. 专利

1) 发明

[1] 宋国辉（第一授权人）. 一种具备跨季节储能功能的生物质热解-水热甲烷化多联产工艺及其装置；授权公布号：CN111808624B，授权日期：2022.02.01

[2] 宋国辉（第一授权人）. 一种无NOx排放的氢燃气轮机联合循环多联产方法；授权公布号：CN111894735B，授权日期：2022.04.26

 

2) 实用新型

[1] 宋国辉（第一授权人）. 一种用于化学能储电的电驱动气化装置，授权公布号：CN216738229U，授权日期：2022.06.14

[2] 宋国辉（第一授权人）. 基于高浓度氧气-水蒸气气化的中热值生物燃气生产装置, 专利号: ZL 2021 2 1673608.2, 授权公布号：CN 218478710 U，授权日期：2023.02.14

 

4. 科研项目

[1] 2019-2019，处理危废用等离子体炉工艺模拟，企业横向，负责人，5.6万，结题。

[2] 2019-2022，生物质超临界CO₂热解实验研究，南京工程学院引进人才科研启动基金，负责人，20万，优秀结题。

[3] 2020-2021，基于大数据分析的脱硝系统运行优化技术研究与应用科技项目合同，企业横向，参与人，第三，225万，结题。

[4] 2022-2023，一种具备跨季节储能功能的生物质热解-水热甲烷化多联产工艺及其装置，企业横向，负责人，31万，结题。

[5] 2022-2022，基于液态高压CO₂和水的低温余热发电系统动力罐的热力学过程模拟研究，参与人，第二，34万，结题。

[6] 2023-2025，中型加热炉低氮燃烧仿真研究与优化，扬州市揭榜挂帅项目，负责人，20万，在研。

[7] 2024-2025，一种无NOx排放的氢燃气轮机联合循环多联产方法，企业横向，负责人，51万，结题。

[8] 2024-2024，液氢温区无氧铜传热元件工作特性和强化设计，苏州市揭榜挂帅项目，负责人，51万，在研。

[9] 2024-2025，波浪能发电电控系统检测平台软件开发，企业横向，负责人，14.5万，在研。