Welcome to DSEC research group
Demand-Side Solutions for Energy & Climate
Welcome to DSEC research group
Demand-Side Solutions for Energy & Climate
We are
DSEC Research Group
Motivations
At DSEC, we focus on understanding how energy consumers respond to different pricing and non-pricing instruments and how this knowledge can be used to alter energy consumption patterns.
Through our research, we aim to contribute to developing a sustainable and resilient energy system that can meet the needs of present and future generations while making customers better off. Our research findings have the potential to inform energy policy and decision-making at local, regional, and national levels and to promote a greater understanding of energy consumers' behavior.
Thank you for visiting our website. We invite you to explore our research areas, publications, and other resources to learn more about our work and our vision for a more sustainable energy future.
MISSION
Our primary goal is to identify demand-side solutions that can provide timely and robust demand response resources to better integrate renewable energies into the power grid. By analyzing the behavior of energy consumers, including households, commercial, and industrial customers, we aim to develop a better understanding of how energy consumption patterns can be modified to achieve this goal.
Our Team
Our group is a multidisciplinary team of economists, social scientists, and engineers dedicated to exploring and implementing innovative solutions to our planet’s critical energy and climate challenges.
We use a range of analytical and empirical methods to explore complex energy systems and consumer behavior, drawing on insights from economics, social science, engineering, and other disciplines.
Our research is focused on using dynamic and time-varying prices, as well as non-price instruments such as information provision and feedback, to influence energy consumption behavior.
영문, 숫자, 특수문자를 포함하여 8~20자로 입력해주세요.
COPYRIGHT (C) DSEC research group. All Rights reserved
Powerd by QUV