His primary areas of study are Electric power system, Control engineering, Microgrid, Control theory and Renewable energy. His work carried out in the field of Electric power system brings together such families of science as Wind power, Electrical engineering, Voltage and Automotive engineering. His studies in Control engineering integrate themes in fields like Robustness, Demand response and Economic dispatch.
His Microgrid study combines topics from a wide range of disciplines, such as Photovoltaic system, Partial differential equation and Energy storage. His work on Automatic frequency control as part of general Control theory study is frequently connected to Differential algebraic equation, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. Hongjie Jia studies Dispatchable generation which is a part of Renewable energy.
Hongjie Jia mostly deals with Electric power system, Control theory, Reliability engineering, Renewable energy and Control engineering. His Electric power system research includes themes of Wind power, State, Automotive engineering, Mathematical optimization and Signal. His Control theory research incorporates themes from Phasor, Fault and Voltage, Capacitor.
His work carried out in the field of Reliability engineering brings together such families of science as Power transmission and Transmission system. His Renewable energy research is multidisciplinary, relying on both Automatic frequency control and Demand response. His work in Control engineering covers topics such as Microgrid which are related to areas like Energy storage.
Control theory, Electric power system, Reliability engineering, Renewable energy and Mathematical optimization are his primary areas of study. Hongjie Jia combines subjects such as Capacitor, Converters and Voltage with his study of Control theory. His study in Electric power system is interdisciplinary in nature, drawing from both Normal mode and State.
His work on Resilience as part of general Reliability engineering research is frequently linked to Component, Telecommunications network and Urban heat island, bridging the gap between disciplines. His Renewable energy research incorporates elements of Electricity, Wind power, Automatic frequency control and Distributed computing. His study in the field of Scheduling and Optimal control also crosses realms of Network planning and design.
Hongjie Jia mainly focuses on Control theory, Renewable energy, Electric power system, Automatic frequency control and Energy storage. His research integrates issues of Phasor, Energy carrier and Oscillation in his study of Control theory. His Microgrid study in the realm of Renewable energy interacts with subjects such as Flexibility.
His Electric power system research is multidisciplinary, incorporating elements of Normal mode, Eigensystem realization algorithm and Resilience. His research in Automatic frequency control intersects with topics in Control engineering, Electric vehicle and Computational complexity theory. His Energy storage research includes elements of Transformer, Electronic component, Electrical engineering, Voltage regulation and Pulsed power.
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A Spatial–Temporal model for grid impact analysis of plug-in electric vehicles ☆
Yunfei Mu;Yunfei Mu;Jianzhong Wu;Nicholas Jenkins;Hongjie Jia.
Applied Energy (2014)
Primary Frequency Response From Electric Vehicles in the Great Britain Power System
Yunfei Mu;Jianzhong Wu;J. Ekanayake;N. Jenkins.
IEEE Transactions on Smart Grid (2013)
Dynamic frequency response from electric vehicles in the Great Britain power system
Jian Meng;Yunfei Mu;Jianzhong Wu;Hongjie Jia.
Journal of Modern Power Systems and Clean Energy (2015)
Integrated energy systems
Jianzhnog Wu;Jinyue Yan;Hongjie Jia;Nikos Hatziargyriou.
Applied Energy (2016)
A Demand Response and Battery Storage Coordination Algorithm for Providing Microgrid Tie-Line Smoothing Services
Dan Wang;Shaoyun Ge;Hongjie Jia;Chengshan Wang.
IEEE Transactions on Sustainable Energy (2014)
Dynamic economic dispatch of a hybrid energy microgrid considering building based virtual energy storage system
Xiaolong Jin;Yunfei Mu;Hongjie Jia;Jianzhong Wu.
Applied Energy (2017)
Energy storage capacity optimization for autonomy microgrid considering CHP and EV scheduling
Zifa Liu;Yixiao Chen;Ranqun Zhuo;Hongjie Jia.
Applied Energy (2018)
Online voltage security assessment considering comfort-constrained demand response control of distributed heat pump systems
D. Wang;S. Parkinson;W. Miao;H. Jia.
Applied Energy (2012)
Dynamic Modeling and Interaction of Hybrid Natural Gas and Electricity Supply System in Microgrid
X. Xu;Hongjie Jia;H.-D. Chiang;D. C. Yu.
IEEE Transactions on Power Systems (2015)
Vector field-based support vector regression for building energy consumption prediction
Hai Zhong;Jiajun Wang;Hongjie Jia;Yunfei Mu.
Applied Energy (2019)
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