Zhao Jing
School
School of Environmental Science and Engineering
Professional Title
Associate professor
Contact Information
13821340756
87402072
zhaojing@tju.edu.cn
Building 43-B-408, 135 Yaguan Road, Jinnan District, Tianjin
Brief Introduction
Zhao Jing, Female, Associated Professor.
Education Background
- Bachelor| Tianjin University| Building Environment and Energy Application Engineering| 2005
- Master&Doctor| Tianjin University| HVAC| 2010
Research Interests
- Building Energy System Intelligent Control Technology
- Low Energy Consumption & Green Building Technologies
- Heaing & Cooling Load Prediction and Building Energy Consumption Simulation
Courses
Professional Membership
- Member of the first council of Smart Building and Smart City Branch of China Engineering Construction Standardization Association
Positions & Employments
-
2013.12-2014.12
Lawrence Berkeley National Laboratory -
2010.6-Now
School of Environmental Science and Engineering | Tianjin University
Academic Achievements
- Papers
- [1] Research on a forecasted load-and time delay-based model predictive control (MPC) district energy system model
- [2] Study on heat transfer delay of exposed capillary ceiling radiant panels (E-CCRP) system based on CFD method
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- [3] A hybrid method of dynamic cooling and heating load forecasting for office buildings based on artificial intelligence and regression analysis
- [4] Multi-objective optimization design for windows and shading configuration considering energy consumption and thermal comfort: A case study for office building in different climatic regions of China
- [5] Suitability assessment of building energy saving technologies for office buildings in cold areas of China based on an assessment framework
- [6] A Fuzzy Control Strategy Using the Load Forecast for Air Conditioning System
- [7] Study on the policy of replacing coal-fired boilers with gas-fired boilers for central heating based on the 3E system and the TOPSIS method: A case in Tianjin, China
- [8] A Study on Energy-Saving Technologies Optimization towards Nearly Zero Energy Educational Buildings in Four Major Climatic Regions of China
- [9] An Influencing Parameters Analysis of District Heating Network Time Delays Based on the CFD Method
- [10] Uncertainty Analysis of Weather Forecast Data for Cooling Load Forecasting Based on the Monte Carlo Method
- [11] Optimization of Passive Envelop Energy Efficient Measures for Office Buildings in Different Climate Regions of China Based on Modified Sensitivity Analysis
- [12] Analysis and optimization of carbon trading mechanism for renewable energy application in buildings
- [13] Energy consumption comparison analysis of high energy efficiency office buildings in typical climate zones of China and U.S. based on correction model
- [14] Energy saving effect prediction and post evaluation of air-conditioning system in public buildings
- [15] Energy consumption quota of public buildings based on statistical analysis
- [16] Energy efficiency performance of multi-energy district heating and hot water supply system
- [17] Analysis and proposal of implementation effects of heat metering and energy efficiency retrofit of existing residential buildings in northern heating areas of China in "the 11th Five-Year Plan" period
- [18] Optimum combinations of building envelop energy-saving technologies for office buildings in different climatic regions of China
- [19] Method of checking and certifying carbon trading volume of existing buildings retrofits in China
- [20] Energy consumption comparison analysis of high energy efficiency office buildings in typical climate zones of China and US based on correction model
- [21] Suitability assessment of building energy saving technologies for office buildings in cold areas of China based on an assessment framework
- [22] Analysis and optimization of carbon trading mechanism for renewable energy application in buildings
- Books
- [1] Technical guide of efficient operation management for existing large public buildings
- [2] US-China high energy efficient building cases analysis and comparison
- Patents
- [1] A building hourly load forecasting method based on meteorological temperature forecast
- [2] A Combined Prediction Method of Dynamic Thermal Load of Office Building Based on Weather Forecast
- Teaching
- No content
- Honors & Awards
- [1] Research and Application of Combined Modular Phase Change Energy Storage Heating System
- [2] Research and application of key technologies of clean storage/heating for buildings based on medium and low temperature phase change heat properties
- Scientific Research Project
- [1] Air-Conditioning system dynamic feedforward regulation theory and control method based on Model Prediction Control
- [2] Regulation mechanism and method of building dynamic thermal environment based on time series load forecast
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- [3] Dynamic heating and cooling load prediction model based on weather forecast
- [4] Passive Solar Phase Change Energy Storage Heating Technology
- [5] Study on building characteristics of public institutions and ultra-low energy consumption standard of public institutions at home and abroad
- [6] Study on the method of energy quota for public buildings and its supporting policy system