Name |
Liu Yu |
|
Department |
thermal physics |
Title |
|
Contact Information |
Liu_yu@cqu.edu.cn |
Biography:
Dr Liu Yu is a research assistant in School of Energy and Power Engineering at Chongqing University (CQU). He serves as a reviewer for International Journal of Refrigeration. He completed his PhD research in March, 2020 in Power engineering and engineering thermal physics from Xi’an Jiaotong University (XJTU). He worked as a Joint-training PhD student in University of California, Berkeley from December, 2017 to January, 2019. He was awarded National Scholarship at ZJU (2018).
Education Background:
Research Interests:
Engineering thermodynamics, thermophysical properties of working fluids.
Research Grants:
Project of National Natural Science Foundation of China, Experimental study on thermal conductivity of hydrocarbon fuel.
Project of National Natural Science Foundation of China, Experimental study on thermophysical property of Ethyl fluoride.
Project of National Natural Science Foundation of China, Viscosity/density and phase equilibrium study of DME-hydrocarbon system under reservoir condition.
Selected Publications:
Journal Papers:
1. Liu Y, He X, Zhao XM, Wang XP, Zheng X. Modeling heat capacity of saturated hydrocarbon in liquid phase over a wide range of temperature and pressure[J]. Journal of Molecular liquids, 2020, 319:114068. (JCR Q1)
2. Liu Y, Zhao XM, Wang XP, Isobaric heat capacity prediction for HC, HFC, HFO and HCFO refrigerants in liquid phase[J]. International Journal of Refrigeration, 2020, 118: 41-49. (JCR Q1)
3. Liu Y, Zhao XM, Wang XP, Wu A. Prediction of thermal conductivities for n-alkanes in liquid and supercritical phase[J]. Journal of Molecular liquids, 2020, 302: 112580. (JCR Q1)
4. Liu Y, He X, Zhao XM. Saturated Liquid Density for Ethyl Fluoride (HFC-161)[J]. International Journal of Refrigeration, 2020. 111: 81-85. (JCR Q1)
5. Liu Y, Zhao XM. Measurement of the Heat Capacity of R1233zd (E)[J]. International Journal of Refrigeration, 2018, 86: 127-132. (JCR Q1)
6. Liu Y, Zhao XM, Lv SH, Heat capacity of isobutane in liquid phase at temperatures from 303 K to 413 K and pressures up to 12MPa[J]. Journal of Chemical Thermodynamics, 2017, 111:265-270. (JCR Q1)
7. Liu Y, Zhao XM, He HW, Wang R. Heat Capacity of R1234ze (E) at Temperatures from 313 to 393 K and Pressures up to 10 MPa[J]. Journal of Chemical and Engineering Data, 2017, 63(1): 113-118. (JCR Q2)
8. Liu Y, Zhao XM, Lv SH, He HW, Isobaric Heat Capacity Measurements for R1234yf from 303 to 373 K and Pressures up to 12 MPa[J]. Journal of Chemical and Engineering Data, 2017, 62(3):1119-1124. (JCR Q2)
Conferences:
1. Liu Y, Zhao XM, Estimation of the Thermal Conductivity of Alkanes by an Artificial Neural Network[C]. 6th North American Calorimetry Conference, 2018, Lake Tahoe, USA.
2. Liu SQ, Zhao XM, Liu Y, Prediction for the solubility of CO2 in [BMIM][TfO] by artificial neural network[C]. 6th North American Calorimetry Conference, 2018, Lake Tahoe, USA.
3. Liu Y, Zhao XM . A New Thermal Conductivity Calculation Model for Liquid n-Alkanes[C]. 20th Symposium on Thermophysical Properties, 2018, Boulder, USA.
4. Liu Y, Zhao XM, Wang R. A new corresponding states model of the vaporization heat for liquids[C]. 21th European Thermophysical Properties Conference, 2017, Graz, Austria.
5. Liu Y, He HW, Zhao XM, Isobaric heat capacities of liquid R1233zd (E) at temperatures from 303 K to 423 K and pressures up to 12 MPa [C], 21th European Thermophysical Properties Conference, Graz, Austria, 2017.
6. Liu Y, He HW, Zhao XM, Isobaric heat capacity measurements of R1234ze (E) in liquid phase at temperatures from 304K to 378K and pressures up to 12MPa [C], 21th European Thermophysical Properties Conference, Graz, Austria, 2017.
7. Wang R, Liu Y, Zhao XM, A new corresponding states model for thermal conductivity of liquid hydrocarbons [C], 21th European Thermophysical Properties Conference, Graz, Austria, 2017.
8. Liu Y, Zhao XM, Lv SH. Isobaric heat capacity measurements of R1234yf in the liquid phase at Temperatures from 303 K to 373 K and Pressures up to 12 MPa [C], 11th Asian Thermophysical Properties Conference, Yokohama, JAPAN, 2016.