代表性论文（近1年通讯及一作）：

[1] Khan SY, Rauf S, Liu S*, Chen W, Shen Y, Kumar M. Revolutionizing the solar photovoltaic efficiency: a comprehensive review on the cutting-edge thermal management methods for advanced and conventional solar photovoltaics. ENERGY & ENVIRONMENTAL SCIENCE. 2025;18:1130-75.

[2] Chen T, Liu S*, Khan SY, Shen Y, Zhang S, Wang Y, et al. Investigation and optimal design of partially encapsulated metal foam in a latent heat storage unit for buildings. Journal of Energy Storage. 2024;84:110979.

[3] Chen T, Liu S*, Wang Y, Shen Y, Ji W, Xu Z, et al. An optimization method coupling the response surface methodology and multi-objective particle swarm to enhance the performance of a novel water Trombe wall. Applied Thermal Engineering. 2025;267:125785.

[4] Chen T, Liu S*, Zhang S, Shen Y, Ji W, Wang Z, et al. Experimental study on solar wall by considering parametric sensitivity analysis to enhance heat transfer and energy grade using compound parabolic concentrator and pulsating heat pipe. Renewable Energy. 2024;229:120769.

[5] Han X, Zeng C, Liu S*, Cheng Y, Zhu X. Maximizing thermal performance in triangular honeycomb thermochemical reactors: Structural and operating parameter studies. Energy. 2024;308:132743.

[6] Kumar M, Khan SY, Liu S*, Zaidi AA, Shaoliang Z, Sohrabi A, et al. Scientific mapping and review of the research landscape in battery thermal management strategies using heat pipe. Journal of Energy Storage. 2024;103:114147.

[7] Kumar M, Yar Khan S, Liu S*, Ji W, Shen Y, Sohrabi A, et al. Scientific mapping and data analysis of the research landscape in perovskite solar cell technology. Solar Energy. 2024;273:112509.

[8] Li S, Ji W, Chen H, Chen T, Sun J, Liu S*. Performance of a curved corrugated surface Trombe wall coupled phase change material in buildings by numerical models and experiments. Energy and Buildings. 2025;327:115095.

[9] Liu S, Han J, Shen Y, Khan SY, Ji W, Jin H, et al. The contribution of artificial intelligence to phase change materials in thermal energy storage: From prediction to optimization. Renewable Energy. 2025;238:121973.

[10] Shen Y, Chen H, Liu S*, Ji W, Jin H, Khan SY, et al. Analysis of influencing factors on the performance of wavy-shape solar trombe walls based on orthogonal experimental design and simulation methods. Energy. 2024;313:133868.

[11] Shen Y, Gao B, Liu S*, Jin H, Mazhar AR. Flow and heat transfer characteristics of fractal tree-shaped heat pipe in enhancing the melting process of phase change material. International Journal of Heat and Mass Transfer. 2024;233:126026.

[12] Shen Y, Liu S*, Jin H, Rehman Mazhar A, Zhang S, Chen T, et al. Thermal investigation and parametric analysis of cascaded latent heat storage system enhanced by porous media. Applied Thermal Engineering. 2024;238:121982.

[13] Sohrabi A, Meratizaman M, Liu S*. Comparative analysis of integrating standalone renewable energy sources with brackish water reverse osmosis plants: Technical and economic perspectives. Desalination. 2024;571:117106.

[14] Wang Y, Chen T, Khan SY, Liu S*, Shen Y, Shao Y, et al. Evaluation and optimization of a novel CPC-PV/T driven cooling, heating and power cogeneration system based on thermochemical energy storage. Energy. 2025;316:134626.

[15] Wang Y, Chen T, Liu S*, Ji W, Shen Y, Wang Z, et al. Performance optimization and evaluation of integrating thermochemical energy storage with low-temperature driven absorption heat pump for building heating: 4E analyses. Applied Energy. 2024;372:123820.

[16] Wang Y, Yang L, Liu S*, Wang Z, Deng S, Li Y, et al. Numerical modeling and performance analysis of an open sorption energy storage system based on zeolite/water in building heating. Energy. 2024;306:132430.

[17] Wang Z, Zhang Z, Wang Y, Li W, Liu S*. Comprehensive study of a volcanic-based hydrated salt thermochemical energy storage composites for buildings heating in China's low-latitude plateau region: Development, characterisation, and analysis. Journal of Energy Storage. 2024;103:114396.

[18] Yar Khan S, Liu S*, Kumar M, Rehman Mazhar A, Shen Y, Chen T, et al. Data analysis and review of the research landscape in performance-enhancing thermal management strategies of photovoltaic technology. Sustainable Energy Technologies and Assessments. 2024;70:103938.

[19] Zaib A, Mazhar AR, Talha T, Shen Y, Liu S*. A novel numerical investigation of a solar PCM heat exchanger for indoor temperature stabilization. Journal of Energy Storage. 2024;100:113560.

[20] Zhang S, Liu S*, Shen Y, Shukla A, Mazhar AR, Chen T. Critical review of solar-assisted air source heat pump in China. Renewable and Sustainable Energy Reviews. 2024;193:114291.（ESI高被引）

[21] Zhang S, Liu S*, Xu Z, Chen H, Wang J, Li Y, et al. Effect of the irradiation intensity on the photo-thermal conversion performance of composite phase change materials: An experimental approach. Renewable Energy. 2024;225:120284.

[22] Zhang S, Liu S*, Xu Z, Shen Y, Chen H, Wang J, et al. Enhancing light transmission and thermal conduction for accelerating direct photo-thermal conversion and storage. Solar Energy. 2024;271:112441.

[23] Khan SY, Waqas A, Kumar M, Liu S*, Shen Y, Chen T, et al. Experimental, numerical, and 4E assessment of photovoltaic module using macro-encapsulation of pure and nano phase change material: A comparative analysis. Energy. 2024;290:130162.

[24] 刘淑丽,周文豪,张少良,沈永亮.太阳能直接吸收相变集-蓄热器的放热特性研究[J/OL].化工学报,1-13[2024-1201].

代表性专利：

[1] Heater can with midway baffle, GB1305613.0, 27/03/2013

[2] Heater can with internal return for element, GB1305617.1, 27/03/2013

[3] Heater can with PCM material to assist with mechanical shutdown, GB1314203.9, 08/08/2013

[4] 刘淑丽, 沈永亮, 熊崇杰, 胡瑞, 苏媛媛, 王语瑶. 一种基于纳米流体的太阳能热泵供热系统及供热方法. CN202410704488.X

[5] 刘淑丽, 张少良, 许至琦, 沈永亮, 陈廷森, 王义函. 热泵供暖系统及其控制方法. 202410829890.0.

[6] 刘淑丽,韩骏瑞,沈永亮,纪文杰,熊崇杰,周文豪. 一种低共熔溶剂基金属-碳复合相变材料及其制备方法. 2024107929949.

[7] 刘淑丽, 沈永亮, 张少良, 张鹏威, 杨柳. 一种太阳能梯级相变蓄热耦合空气源热泵供热系统及方法. 202110065565.8.

[8] 刘淑丽, 张少良, 沈永亮, 杨柳, 高彬栩. 基于变沸点双向热管的聚光-相变蓄热型建筑围护结构. 202110453920.9, 2022-07-26.

[9] 刘淑丽, 陈廷森, 张少良, 沈永亮, 纪文杰. 地下空间数据中心可移动冷源靶向精准降温系统及方法. 202310951664.5.

[10] 刘淑丽, 邬春晖, 陈廷森, 张少良, 纪文杰, 沈永亮. 一种满足动态热舒适性的通风系统. 202111077473.8.

代表性研究项目：

[1] 国家重点研发计划“城镇可持续发展关键技术与装备”重点专项，地域气候适应性建筑热工设计与构造关键技术研究，2024YFC3809300，2025.03 -2028.02，在研，子任务负责人

[2] 国家重点研发计划“高端功能与智能材料”重点专项，面向中低温热能高效利用的相变储热材料研究，2024YFB3813600，2024.12-2027.11，在研，子任务负责人

[3] 国家重点研发计划“政府间国际科技创新合作”重点专项，低碳建筑非透明围护结构高效保温隔热材料与构造研究，2024YFE0103441，2025-2026，在研，课题负责人

[4] 云南省科技厅重大科技专项计划，气候温和地区城市人居环境低碳营造关键技术研究，202402AG050011，2024.10 -2027.09，在研，课题负责人

[5] 科技委“166工程”项目，XXX热能存储技术，2023.07-2025.06，在研，主持

[6] 基于热质强化理论的低碳热能技术及其建筑应用，国家外国专家类项目(H类)，H20240114，2024.01-2025.12，在研，主持

[7] 国家自然科学基金面上项目，变沸点双向热管与复合相变材料耦合新型通风墙体热质传递机理，G2022178022L，2022-2025，在研，主持

[8] 中华人民共和国科技部高端外国专家引进计划项目，基于太阳能光伏光热综合利用的智慧供能与梯级储能系统关键技术研究，2022.01-2023.12，结题，主持

[9] 山东省鸢都产业领军人才产业创新类项目，基于非稳态热源的梯级多能互补供能系统，2021-01至2024-12，结题，主持

[10] 北京市教育委员会，北京市专项课题项目，3030036121906，北京市既有居住区绿色化改造预测模型的研究，2019-06至2020-12，结题，主持

[11] Newton Fund, Researcher Links Workshop Grant, UK-China, ‘Investigation of the Impact of Occupant Behavior on Building Performance in the UK and China’ (£41k), 2019, PI

[12] Newton Fund, Researcher Links Workshop Grant, UK-China, ‘Building energy and technology perspective in China and UK’ (£41.2k), 04, 2017~01, 2018, PI

[13] EPSRC, ‘an intelligent digital household network to transform low carbon lifestyles’, EP/K002716/1 Case for Support to the EPSRC (BuildTEDDI) (£1.06m), 12, 2012~01, 2018, PI

社会职务

[1] Carbon Neutral Technologies、Green Technology & Innovation、 Journal of Green Energy and Resources、Journal of Low Carbon Technology、《建筑节能》、《中国建筑金属结构》等期刊编委

[2] CIBSE（英国皇家注册设备工程师协会）会员

[3] ASHRAE（美国供暖，制冷和空调工程师学会）会员

[4] IET（工程技术学会）会员

[5] WSSET（世界可持续能源技术学会）会员

[6] International Journal of Low-Carbon Technologies、Journal of Environmentally Sustainable Buildings、Advances in Mechanical Engineering、Journal of Engineering等期刊客座编辑