职  称

副教授

E-mail

zhang@yzu.edu.cn

联  系

地     址

江苏省扬州市邗江区华扬西路198号扬州大学扬子津西校区建筑科学与工程学院

学习经历

2018-2019  美国University of Kansas土木、环境与建筑工程系 访问学者

2011-2014  东南大学  博士

2005-2008  南京工业大学  硕士

2001-2005  南京工业大学  本科

研究方向

[1] 相变蓄能墙体

[2] 建筑围护结构热性能

[3] 建筑节能与绿色建筑技术

[4] 建筑热环境

课程教学

本科生教学：
[1] 建筑物理

[2] 建筑物理实验

[3] 绿色建筑概论

研究生教学：
[1] 建筑环境物理

主持项目

[1] 相变围护结构热特性与改进-兼容型相变传热数学模型研究，国家自然科学基金青年项目，2016-2018

[2] 改进型相变传热数学模型及相变复合墙体热性能研究，江苏省自然科学基金青年项目，2016-2018

[3] 复合相变材料建筑围护结构传热数学模型及热特性研究，中国博士后基金面上项目，2017-2018

[4] 保温-相变墙体传统热模型误差与热性能简便预测法研究，中国博士后基金面上项目，2020-2021

[5] 相变围护结构热特性与改进-兼容型相变传热数学模型研究，江苏省博士后基金面上项目，2016-2017

参与项目

[1] 蓄能建筑墙体中相变材料部分熔化特性与非对称模型研究，国家自然科学基金青年项目，2014-2016

代表性论文与论著

[1] Y. Zhang*, X. Sun, M.A. Medina*. Experimental assessment of concrete masonry units integrated with insulation and phase change material: A wall-pattern study. Energy, 2024, 289: 130038. (SCI)

[2] Y. Zhang*, X. Sun, M.A. Medina*. Thermal performance of concrete masonry units containing insulation and phase change material. Journal of Building Engineering, 2023, 76: 107184. (SCI)

[3] Y. Zhang*, W. Jiang, J. Song, L. Xu, S. Li, L. Hu. A parametric model on thermal evaluation of building envelopes containing phase change material. Applied Energy, 2023, 331: 120471. (SCI)

[4] Y. Zhang*, X. Sun, M.A. Medina*. A reduced-scale experimental method for the thermal evaluation of building envelopes outfitted with phase change materials. Journal of Building Engineering, 2022, 62: 105372. (SCI)

[5] Y. Zhang*, M. Deng. Taguchi optimization and a fast evaluation method on the transient thermal performance of phase change material outfitted walls. Journal of Energy Storage, 2021, 43: 103120. (SCI)

[6] Y. Zhang, X. Sun, M.A. Medina*. Experimental evaluation of structural insulated panels outfitted with phase change materials. Applied Thermal Engineering, 2020, 178: 115454. (SCI)

[7] Y. Zhang, X. Sun, M.A. Medina*. Calculation of transient phase change heat transfer through building envelopes: An improved enthalpy model and error analysis. Energy and Buildings, 2020, 209: 109673. (SCI)

[8] Y. Zhang*, Q. Wang. Impact of phase change material’s thermal properties on the thermal performance of phase change material hollow block wall. Heat Transfer Engineering. 2019, 40(19): 1619-1632. (SCI)

[9] Y. Zhang*. Modified computational methods using effective heat capacity model for the thermal evaluation of PCM outfitted walls. International Communications in Heat and Mass Transfer. 2019, 108: 104278. (SCI)

[10] X. Sun*, J. Jovanovic, Y. Zhang*. Use of encapsulated phase change materials in lightweight building walls for annual thermal regulation. Energy, 2019, 180: 858-872. (SCI)

[11] Y. Zhang*. Impact of structural configuration on the thermal performance of PCM hollow block wall. Science and Technology for the Built Environment. 2018, 24(9): 945-961. (SCI)

[12] Y. Zhang*, Q. Wang. Influence of hollow block’s structural configuration on the thermal characteristics of hollow block wall. Procedia Engineering. 2017, 205: 2341-2348. (EI)

专利授权

[1] 张源. 一种相变复合墙体热性能测试装置及方法, ZL202011162519.1

其他成果或表彰

[1] 江苏省普通高校“优秀青年骨干教师”荣誉称号

[2] 扬州市“绿扬金凤计划”优秀博士