Key Laboratory of Cryogenic Science and Technology, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences
Author in the following contributions
- C2Po3C-01: Thermodynamic and mechanical properties of solid-phase media for moving cryogenic energy storage packed beds
- C3Po1D-08: Stress Distribution and Sealing Performance Analysis of Metal Sealing Joints in Liquid Hydrogen Pipelines
- C3Po1C-02: Numerical Simulation Study on the Precooling Process of a Propane Storage Tank in a Liquid Air Energy Storage System
- C3Po1D-09: Simulation Study on the Thermal Insulation Performance of Liquid Hydrogen Transport Pipelines
- C1Po1F-01: Performance Investigation of Gas-Solid Heat Transfer from Room to Cryogenic Temperatures in Moving Solid-Phase Cold Storage
- C1Po3C-03: Thermodynamic Analysis of Cold Energy Replenishment in Liquid Air Energy Storage System
- C2Po1F-04: Numerical study of liquid medium based packed bed cold storage in liquid air energy storage system
- C1Po3C-05: Investigation of cold energy transfer characteristics in the liquefaction unit of the liquid air energy storage system
- C2Po3D-09: A Liquid Air Energy Storage (LAES) System Utilizing Upgraded LNG Cold Energy for Air Liquefaction
- C1Po3C-01: A study of the whole life cycle carbon emission of liquid air energy storage system
- C1Po3D-02: Study on Helium Adsorption Properties of Carbon Nanotubes in the Liquid Helium Temperature Range Based on the Monte Carlo Method
- C3Po1F-04: Study on Cryogenic Fluid Circulation Loops for Efficient Heat Transfer of Small Cooling Capacities in the 4-20 K Temperature Range
- C1Po3D-03: Measurement of Apparent Thermal Conductivity of Insulation Materials at Cryogenic Temperatures
- C1Po1C-05: Study on the multiple cooling output characteristics of a gas-coupled high-frequency pulse tube cryocooler
