黄畅，工学博士，暨南大学副教授、硕士生导师，新能源科学与工程专业教研室副主任（主持工作）。主要面向“双碳”目标与新型电力系统，围绕分布式灵活资源聚合、综合能源系统优化、电力市场交易决策、低碳灵活热力系统等方向开展研究，重点关注新能源高渗透下源-荷-储-热多能协同、用户侧/园区级灵活资源市场化调控、含氢综合能源系统智能调度、智算中心与建筑柔性负荷、光煤互补及火电灵活运行等问题。主持国家自然科学基金青年项目、广东省自然科学基金、广东省基础与应用基础研究基金面上项目、广州市科技计划等纵向课题，以及企业委托横向课题；作为子课题负责人参与智能电网国家重大科技专项。近年来在 Applied Energy、Energy Conversion and Management、Energy、Journal of Cleaner Production、Journal of Membrane Science 等能源领域期刊发表论文，授权/公开发明专利多项。曾获教育部科技进步二等奖、产学研合作创新成果优秀奖等。兼任广东省工程热物理学会理事、《中国电力》《热力发电》青年编委、珠海市节能评审专家等。

欢迎具有能源动力、电气工程、控制科学、人工智能、数学优化等背景的学生报考，围绕分布式灵活资源聚合、综合能源系统优化、电力市场交易决策、智算中心柔性负荷、虚拟电厂与新型电力系统等方向开展研究。

个人主页：Google Scholar、ResearchGate

2014/09-2020/06　华北电力大学，能源动力与机械工程学院，热能工程，博士（导师：杨勇平教授）

2018/09-2019/09　澳大利亚阿德莱德大学，工程学院，联合培养博士研究生（导师：Eric Hu 教授）

2010/09-2014/06　华北电力大学，能源动力与机械工程学院，热能与动力工程，本科

2022/08至今　暨南大学国际能源学院，新能源科学与工程专业教研室副主任（主持工作）

2020/08至今　暨南大学能源电力研究中心，副教授、硕士生导师

1. 分布式灵活资源聚合与市场化智能决策

围绕虚拟电厂、园区综合能源、用户侧储能、可调负荷、分布式光伏等多类型资源，研究可调能力表征、聚合建模、市场竞价、风险调度与协同控制方法。

2. 综合能源系统与源-荷-储-热协同优化

面向综合能源、分布式能源、冷热电联供、储能、热泵等系统，研究规划-运行协同、多目标优化、需求响应和预测-决策-体化方法。

3. 电力市场交易、不确定性优化与博弈决策

针对新能源出力、负荷响应、电价和网络状态等多源不确定性，研究随机优化、鲁棒/分布鲁棒优化、Stackelberg 博弈、多智能体强化学习与风险度量方法在电力市场中的应用。

4. 智算中心与建筑柔性负荷低碳调度

面向算电协同和新型负荷增长，研究智算中心/建筑负荷预测、冷却系统柔性、任务-能量协同调度、绿电消纳与低碳运行。

5. 低碳灵活热力系统与光煤互补

围绕光热-煤电耦合、热电解耦、火电深度调峰和热力系统变工况运行，研究多能流互补机制、灵活性提升、能效分析和安全经济运行方法。

1.  Huang C, Liu H, Wang W. Enhancing stochastic optimization of wind-PV-storage systems: A scenario reconstruction approach with source-load matching and temporal characteristics [J]. Applied Energy, 2026.

2.  Guan J, …, Huang C*, et al. Co-optimization of distributed energy systems: A three-layer framework leveraging a novel diagram-driven method [J]. Journal of Cleaner Production, 2025.

3.  Huang C, Wang W, et al. The lifespan penalties of a steam turbine’s governing stage rotor blade during the rapid peak shaving of new power system [J]. Energy, 2025.

4.  Shang W, …, Huang C*, et al. In-situ temperature measurement and non-linear interaction analysis of temperature polarization in direct contact membrane distillation [J]. Journal of Membrane Science, 2025.

5.  Huang G, Huang C*, et al. Innovative full-range load operation solution for solar-aided power generation system: Enhancing efficiency with coal and solar energy flexibility integration [J]. Energy, 2025.

6.  Yang L, Guo J,..., Huang C*. Multi-scale building load forecasting without relying on weather forecast data.: A temporal convolutional network, long short-term memory network, and self-attention mechanism [J]. Buildings, 2025.

7.  Huang G, Huang C*, et al. Exergy analysis of off-design performance in solar-aided power generation systems: Evaluating the rationality of using part-load operation solution of coal-fired plants [J]. Energy, 2024.

8.  Yan Y, Huang C*, et al. Stochastic optimization of solar-based distributed energy system: An error-based scenario with a day-ahead and real-time dynamic scheduling approach [J]. Applied Energy, 2024, 363: 123099.

9.  Gan Y, Huang C*, et al. Flow behavior of laval nozzle sets in steam turbine governing stage at low loads [J]. Thermal Science and Engineering Progress, 2023 

10.  Huang C*, Yan Y, et al. Improving operation strategies for solar-based distributed energy systems: Matching system design with operation [J]. Energy, 2023.

11.  Huang C*, Bai Y, Yan Y, et al. Multi-objective co-optimization of design and operation in an independent solar-based distributed energy system using genetic algorithm [J]. Energy Conversion and Management, 2022, 271: 116283.

12.  Huang C, Wang W, Madonski R, et al. Novel energy saving technologies for thermodynamic systems with carbon neutrality goal [J]. Energy Reports, 2022, 8: 9541–9553.

13.  Huang C*, Madonski R, Zhang Q, et al. On the use of thermal energy storage in solar-aided power generation systems [J]. Applied Energy, 2022, 310: 118532.

14.  黄畅，张攀，王卫良，等. 燃煤发电产业升级支撑我国节能减排与碳中和国家战略 [J]. 热力发电, 2021, 50(4): 1–6.

15.  Zhang N, Duan L, Huang C*, et al. Operation strategy and dynamic performance study of integrated solar combined-cycle system [J]. Energy Conversion and Management, 2021, 228: 113716.

16.  Ding Z, Hou H, Duan L, Huang C*, et al. Simulation study on a novel solar aided combined heat and power system for heat-power decoupling [J]. Energy, 2021, 220: 119689.

17.  Pan X, Huang C*, Zhang Q, et al. Dynamic simulation study of wind-PV-storage energy system under variable working conditions [J]. 热力发电, 2021, 50(08): 164–171.

18.  Huang C, Hou H, Hu E, et al. Measures to reduce solar energy dumped in a solar aided power generation plant [J]. Applied Energy, 2020, 258: 114106.

19.  Zhang N, Yu G, Huang C*, et al. Full-day dynamic characteristics analysis of a solar aided coal-fired power plant in fuel saving mode [J]. Energy, 2020, 208: 118424.

20.  Huang C, Hou H, Yu G, et al. Energy solutions for producing shale oil: Characteristics of energy demand and economic analysis of energy supply options [J]. Energy, 2020, 192: 116603.

21.  Huang C, Hou H, Hu E, et al. Stabilizing operation of a solar aided power generation plant by adjusting the burners’ tilt and attemperation flows in the boiler [J]. Energy, 2019, 173: 1208–1220.

22.  Huang C, Hou H, Hu E, et al. Performance maximization of a solar aided power generation plant with a direct air-cooled condenser in power-boosting mode [J]. Energy, 2019, 175: 891–899.

23.  Huang C, Hou H, Yu G, et al. Impact of power station capacities and sizes of solar field on the performance of solar aided power generation [J]. Energy, 2017, 139: 667–679.

1.  国家自然科学基金青年项目：槽式光热与燃煤热电联产系统变工况运行的多能流时空互补机制研究，主持。

2.  智能电网国家重大科技专项：超高比例新能源省级电力系统平衡与稳定能力构建技术及示范工程，子课题主持。

4.  广东省科学与自然基金项目：可再生能源驱动的太阳能—热电联产系统集成机理及调控机制研究，主持。

5.  广州市科学与自然基金项目：不确定性扰动下风光储综合能源系统的高效集成及灵活调控研究，主持。

6.  中央高校基本科研业务费项目：太阳能辅助燃煤热电联产系统调控策略研究，主持。

7.  企业委托横向课题：《基于汽汽引射方式的热电解耦系统研究》项目之汽轮机热力系统仿真与汽轮机安全性验证，主持。

1.  黄畅，等.一种互补发电系统全负荷运行方法及互补发电系统. [发明专利]. 已授权

2.  黄畅, 王卫良, 王倩, 等. 中央补风湿式冷却塔及冷却方法. [发明专利]. ZL202011290478.4. 已授权

3.  黄畅，等. 基于源荷匹配与时序特征的不确定性场景生成及规划方法. [发明专利]. 已授权

广东省工程热物理学会理事，《ZUSA》A类期刊客编，《中国电力》《热力发电》青年编委，珠海市节能减排评审专家