Education background

2012.09-2017.07: Tsinghua University, Department of Energy and Power Engineering, Ph.D. in Power Engineering and Engineering Thermophysics.

2008.09-2012.07: Tsinghua University, Department of Thermal Engineering, Bachelor in Energy, Power System and Automation.

Experience

2019.07-Now: Tsinghua University, Department of Energy and Power Engineering, Research Assistant Professor

2017.0.08-2019.07: Tsinghua University, Department of Chemical Engineering, Post-doc Fellow.

Areas of Research Interests/ Research Projects

Exergy analysis and optimization of energy system; Thermophysical and thermochemical properties of fluid; Destruction of waste refrigerants

Research Status

Dr Xiaoye Dai focused on the research about exergy analysis and optimization of energy system, thermophysical and thermochemical properties of fluid and refrigerants. He has profound knowledge in engineering thermodynamics, energy and exergy analysis, fluid property measurement, etc. His research is being supported by the National Natural Science Foundation of China and other programs. He has published more than thirty peer reviewed research papers.

Academic Achievement

[1] Xiaoye Dai, Lin Shi, Weizhong Qian. Material Compatibility of Hexamethyldisiloxane as Organic Rankine Cycle Working Fluids at High Temperatures. Journal of Thermal Science. 2020, 29(1): 25-31.

[2] Lejun Feng, Xiaoye Dai, Junrong Mo, Lin Shi. Feasibility analysis of the operation strategies for combined cooling, heating and power systems (CCHP) based on the energy-matching regime, Journal of Thermal Science, 2020, 29: 1149–1164.

[3] Xiaoye Dai, Lin Shi, Weizhong Qian. Thermal Stability of Hexamethyldisiloxane (MM) as a Working Fluid for Organic Rankine Cycle. International Journal of Energy Research. 2019, 43: 896-904.

[4] Xiaoye Dai, Lin Shi, Weizhong Qian. Review of the working fluid thermal stability for organic Rankine cycles, Journal of Thermal Science. 2019, 28(4): 597-607.

[5] Lejun Feng, Xiaoye Dai, Junrong Mo, Yuezheng Ma, Lin Shi. Analysis of energy matching performance between CCHP systems and users based on different operation strategies, Energy Conversion and Management, 2019, 182: 60-71.

[6] Lejun Feng, Xiaoye Dai, Junrong Mo, Lin Shi. Analysis of simplified CCHP users and energy-matching relations between system provision and user demands, Applied Thermal Engineering. 2019, 152: 532-542.

[7] Dabiao Wang, Xiaoye Dai, Ran Tian, Lin Shi. Experimental investigation of the heat transfer of supercritical R134a in a horizontal micro-fin tube, International Journal of Thermal Sciences. 2019, 138: 536-549.

[8] Lejun Feng, Xiaoye Dai, Junrong Mo, Lin Shi. Comparison of capacity design modes and operation strategies and calculation of thermodynamic boundaries of energy-saving for CCHP systems in different energy supply scenarios. Energy Conversion and Management, 2019, 188: 296-309.

[9] Lejun Feng, Xiaoye Dai, Junrong Mo, Lin Shi. Performance assessment of CCHP systems with different cooling supply modes and operation strategies. Energy Conversion and Management, 2019, 192: 188-201.

[10] Lejun Feng, Xiaoye Dai, Junrong Mo, Lin Shi. Analysis of energy-matching performance and suitable users of conventional CCHP systems coupled with different energy storage systems. Energy Conversion and Management, 2019, 200: 112093.

[11] Xiaoye Dai, Lin Shi, Qingsong An, Weizhong Qian. Influence of alkane working fluid decomposition on supercritical organic Rankine cycle systems. Energy. 2018, 153: 422-430.

[12] Xiaoye Dai, Lin Shi, Qingsong An, Weizhong Qian. Thermal stability of some hydrofluorocarbons as supercritical ORCs working fluids. Applied Thermal Engineering. 2018, 128: 1095-1101.

[13] Xiaoye Dai, Lin Shi, Qingsong An, Weizhong Qian. Screening of Working Fluids and Metal Materials for High Temperature Organic Rankine Cycles by Compatibility. Journal of Renewable and Sustainable Energy, 2017, 9(2): 024702.

[14] Xiaoye Dai, Lin Shi, Qingsong An, Weizhong Qian. Screening of Hydrocarbons as Supercritical ORCs Working Fluids by Thermal Stability, Energy Conversion and Management, 2016, 126:632-637.

[15] Xiaoye Dai, Lin Shi, Qingsong An, Weizhong Qian. Chemical Kinetics Method for Evaluating the Thermal Stability of Organic Rankine Cycle Working Fluids. Applied Thermal Engineering, 2016, 100:708-713.