Basic Information

杜洋  

工学博士,硕士生导师(学硕、专硕),助理教授

西安交通大学青年优秀人才A类

机械工程学院航空发动机研究所

航空动力系统与等离子体技术全国重点实验室

 

Educational Experience

2017.09-2021.12 西安交通大学 动力工程及工程热物理  工学博士 

2020.08-2021.08 丹麦技术大学  能源转化与存储   CSC公派联培博士生

2013.09-2016.06 西安交通大学 动力工程及工程热物理   工学硕士

2009.09-2013.07 大连理工大学 热能与动力工程 工学学士 

 

Contact Information

办公邮箱:yangdu@mail.xjtu.edu.cn

办公地址:交大曲江校区南一楼智能制造中心A座507;创新港2-5045

ResearchGate个人主页

微信: duyang90

Work Experience

2022.03-至今  西安交通大学    助理教授

2022.03-至今 西安交通大学  博士后 合作导师: 李应红 院士、何光宇 教授(国家级领军人才)

2016.07-2017.07 中国电建集团华中电力设计研究院  助理工程师

News

Research Fields

 

研究方向:

1. 零碳(氢/氨)高效燃料电池-发动机混合航空动力系统建模与运行调控

2. 微小型航空发动机设计与运行调控

3. 新型燃气轮机/二氧化碳联合循环瞬态响应特性与先进控制

 

招生专业及方向:

03航发所:高端装备智能再制造与健康运维

学硕:

080200 机械工程

01(全日制)深度学习与智能制造

09(全日制)新型空天动力原理与技术

10(全日制)航空发动机先进控制与容错控制

 

专硕:

085501 机械工程

(全日制)高端/智能制造装备与系统;

(全日制)重大装备运行性能与智能维护

 

主持科研项目/课题:

1. 国家自然科学基金青年项目,燃气轮机-分流自冷凝跨临界CO2动力循环高效能流耦合与灵活调控机理,2024.01-2026.12,在研,主持,30万;

2.JKW基础加强重点项目课题,****************************,在研,课题负责人,218万;

3. ZF预研基金:涡轮增压航空转子发动排气流动规律研究,在研, 2023.12-2025.12,主持,36万;

4.重庆市技术创新与应用发展专项重点项目:氢******************研发与应用,在研, 联合申报,35万;

5. ZF预研基金,结题,主持,25万;

6. 中国博士后基金面上项目, 在研, 主持,8万;

7. 陕西省自然科学基金,在研, 主持,5万;

8. 624横向,压气机**, 在研,主持,150万。

参与代表性科研项目/课题:

1. 航空发动机及燃机重大专项课题:*****************,结题,参与,206.29万;

2. 国家自然科学基金委面上项目: 太阳能驱动超临界CO2布雷顿循环发电系统能量匹配机理与全域调控方法研究, 结题,参与,62万;

3. 国家重点研发计划课题:固体散料余热高效梯级回收利用集成与示范,结题,参与,465万;

4. KJ预研项目:*********************,在研,参与,400万;

5. 慧眼行动项目:*********************,在研,参与,617万;

 

热忱欢迎机械、能动、航空等相关专业本科生通过邮件咨询报考课题组研究生。

 

在读博士研究生:

高旭(2024级,合作指导,硕博连读,本科南京理工大学)

 

在读硕士研究生:

张泽奇(2022级,独立指导,本科哈尔滨工程大学)

陈硕(2023级,独立指导,本科华南理工大学,获得研究生国家奖学金)

傅钰(2024级,独立指导,本科山东大学,保研) 

贾光宇(2024级,合作指导,本科太原理工大学)

张汝羿(2024级,合作指导,本科山东理工大学)

 

 

科研成果:

申请发明专利20余项,授权发明专利10项;一作/通讯发表SCI论文17篇(中科院一区Top 论文13篇 ,二区Top论文 4篇,8篇IF>10),EI论文6篇(国际燃气轮机会议ASME Turbo Expo论文3篇,国际动力工程会议ICOPE论文1篇,中国电机工程学报论文1篇,西安交通大学学报1篇

 

代表性论文如下:

[1] Du Yang, Yang Zhenghao, et. al. Control strategy optimization exploration of a novel hydrogen-fed high-efficiency X-type rotary engine hybrid power system by coupling with recuperative organic Rankine cycle[J]. Energy, 2024. (Accept, SCI,一区Top, IF:9).

[2] Du Yang, Gao Xu, Mu Qiwei, et. al. Novel self-pressurized ammonia-powered solid oxide fuel cell hybrid system using anode recirculation with water removal for improving high-altitude performance: Feasibility exploration[J], Energy Conversion and Management,2023, 295:117635. (SCI,一区Top, IF:10.4).
[3]  Du Yang, Yang Zhenghao, Hou Yu, et. al. Part-load performance prediction of a novel diluted ammonia-fueled solid oxide fuel cell and engine combined system with hydrogen regeneration via data-driven model[J], Journal of Cleaner Production, 2023, 395(23):136305. (SCI, 一区Top,IF:11.1).
[4]  Du Yang, Zhang Yicen, Lou Juwei, et. al, Conception and thermo-economic performance investigation of a novel solid oxide fuel cell/ gas turbine/Kalina cycle cascade system using ammonia-water as fuel[J], Applied Thermal Engineering, 2023, https://doi.org/10.1016/j.applthermaleng.2023.122118. (SCI/EI,二区Top, IF:6.4).
[5]  Hou Y, Du Yang*, Gao Xu, et al. Comprehensive comparison of single-stage and novel two-stage hydrogen direct injection strategies on the combustion and thermodynamic performance of X-type rotary engine using gasoline-hydrogen fuel[J], International Journal of Hydrogen Energy, 2024, 441-56 (SCI, 二区Top,IF:7.2).
[6]  Du Yang, Zheng S, Chen K, et al. Exergy loss characteristics of a recuperated gas turbine and Kalina combined cycle system using different inlet guide vanes regulation approaches[J]. Energy Conversion and Management, 2021, 230: 113805. (SCI,一区Top, IF:10.4).
[7]  Du Yang, Fan G, Zheng S, et al. Novel operation strategy for a gas turbine and high-temperature KCS combined cycle[J]. Energy Conversion and Management, 2020, 217: 113000. (SCI,一区Top, IF:10.4).
[8]  Du Yang, Jiang N, Zhang Y, et al. Multi-objective optimization of an innovative power-cooling integrated system based on gas turbine cycle with compressor inlet air precooling, Kalina cycle and ejector refrigeration cycle[J]. Energy Conversion and Management, 2021,244,114473. (SCI,一区Top, IF:10.4).
[9]  Du Yang, Liu T, Wang Y, et al. Transient behavior investigation of a regenerative dual-evaporator organic Rankine cycle with different forms of disturbances: towards coordinated feedback control realization[J]. Energy, 2021, 235:121437. (SCI,一区Top, IF:9 ).
[10]  Du Yang, Chen K, Dai Y. A study of the optimal control approach for a Kalina cycle system using a radial-inflow turbine with variable nozzles at off-design conditions[J]. Applied Thermal Engineering, 2019, 149: 1008-1022. (SCI,二区Top, IF:6.4).
[11] Du Yang, Dai Y. Off-design performance analysis of a power-cooling cogeneration system combining a Kalina cycle with an ejector refrigeration cycle[J]. Energy, 2018, 161: 233-250. (SCI, 一区Top, IF: 9).
[12] Du Yang, Yang Y, Hu D, et al. Off-design performance comparative analysis between basic and parallel dual-pressure organic Rankine cycles using radial inflow turbines[J]. Applied Thermal Engineering, 2018, 138: 18-34. (SCI,二区Top, IF:6.4).
[13] Du Yang, Chen H, Hao M, et al. Off-design performance comparative analysis of a transcritical CO2 power cycle using a radial turbine by different operation methods[J]. Energy Conversion and Management, 2018, 168: 529-544. (SCI,一区Top, IF:10.4).
[14] Du Yang, Han P, Qiang X, et al. Off-design performance analysis of a combined cooling and power system driven by low-grade heat source[J]. Energy Conversion and Management, 2018, 159: 327-341. (SCI,一区Top, IF:10.4).

[15] Du Yang, Chen Shuo, et al. Innovative ammonia blended natural gas fueled gas turbine - spilt transcritical CO2 cycle combined system based on dual-temperature CO2 turbines: energy, environmental and economic performance trade-off. Energy Conversion and Management,2024, (Accept, SCI,一区Top, IF:10.4).

[16] Du Yang, Fu Yu, et al. Performance improvements for green hydrogen-ammonia fueled SOFC hybrid system through dead-end anode recirculation and split transcritical CO2 power cycle. Renewable Energy, 2024, 237, 121827.

[17] Yang Zhenghao , Du Yang*, Xu Gao, Zhang Zeqi , Geng Qi, Guangyu He*, Comparative analysis of combustion, thermodynamic and environmental performance of hydrogen-doping X-type rotary engines using single-ignitor and dual-ignitors under high-altitude condition,
Energy, Volume 307, 2024, 132767.(SCI, 一区Top, IF: 9).

[18] 张泽奇,杜洋*,杨正浩等.不同氢气喷孔直径对汽油掺氢X型转子发动机性能及污染物排放影响[J/OL].西安交通大学学报:1-11[2023-12-07].http://kns.cnki.net/kcms/detail/61.1069.T.20231026.1118.006.html.

 

其他:

CEST清洁能源开发与利用青年编委

The Innovation Energy青年编委

Energies客座编辑

"Energy Conversion and Management "Outstanding Reviewer

"Energy" Reviewer

“Applied Energy” Reviewer

ASME Member

陕西省科技工作者创新创业大赛三等奖(第一完成人)

西安交通大学学术之星

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