Dr. Shen Tian

Personal information

Name：Shen Tian

Sex：Male

Email：tianshen@tjcu.edu.cn

 Subject Areas：

He has done some research work on safety detection and energy consumption analysis for refrigeration systems of large commercial cold storages. A quick alarm and fast locating method that effectively detect ammonia pipeline leakage have been conducted by him and applied in several cold storages. Accurate prediction and measurement methods for dynamic infiltration cooling load, which is responsible for a large part of the total cooling load of cold storages, were also researched by him. He also built up a grey-box model to enable the accurate prediction of dynamic energy consumption of large cold storages, which can help to promote the development of energy efficiency evaluation and energy saving analysis of large commercial cold storages.

Representative papers:

1. Tian S, Gao Y P, Shao S Q, Xu H B, Tian C Q. Measuring the transient airflow rates of the infiltration through the doorway of the cold store by using a local air velocity linear fitting method. Applied Energy, 2018, 227: 480-487.

2. Tian S, Gao Y P, Shao S Q, Xu H B, Tian C Q. Development of an unsteady analytical model for predicting infiltration flow rate through the doorway of refrigerated rooms. Applied Thermal Engineering, 2018, 129: 179-186.

3. Tian S, Gao Y P, Shao S Q, Xu H B, Tian C Q. Numerical investigation on the buoyancy-driven infiltration airflow through the opening of the cold store. Applied Thermal Engineering, 2017, 121: 701-711.

4. Tian S, Gao Y P, Shao S Q, Xu H B, Tian C Q. An experimental investigation of the single-sided infiltration through doorways of the cold store. International Journal of Refrigeration, 2017, 73: 175-182.

5. Tian S, Du J L, Shao S Q, Xu H B, Tian C Q. A study on a real-time leak detection method for pressurized liquid refrigerant pipeline based on pressure and flow rate. Applied Thermal Engineering, 2016, 95: 462-470.

6. Tian S, Gao Y P, Shao S Q, Xu H B, Tian C Q. A local air velocity measurement method for estimating infiltration heat load through doorway of cold store. Energy Procedia, 2017, 105: 3275-3281.