Yelena Vardanyan

Researcher

Research Institute of Sweden

Stockholm, Sweden

My organisation

RISE is Sweden's research institute and innovation partner. In international cooperation with companies, academia and the public sector, RISE contributes to a competitive business life and a sustainable society. RISE's approximately 3,300 employees drive and support all types of innovation processes. RISE is an independent, state research institute that offers unique expertise and around 130 test and demonstration environments for future-proof technologies, products and services.
Read more

About me

Yelena Vardanyan is a researcher in Electric Power System unit at RISE. She has been as Post Doctoral researcher at DTU Compute, DTU (Danish Technical University). She received her Master degree from the department of Industrial Engineering & Systems Management, at the American University of Armenia (2007). Yelena holds a PhD in Electric Power Systems division, KTH (Royal Institute of Technology), (2016). Her research interests include renewable energy planning, electricity markets and its economics, distributed energy resources and its integration of power systems, application of stochastic and bi-level optimization as mathematical tools to solve current and future smart grid challenges.

My organisation

RISE is Sweden's research institute and innovation partner. In international cooperation with companies, academia and the public sector, RISE contributes to a competitive business life and a sustainable society. RISE's approximately 3,300 employees drive and support all types of innovation processes. RISE is an independent, state research institute that offers unique expertise and around 130 test and demonstration environments for future-proof technologies, products and services.

Social media

Skills

  • Mathematical optimization,
  • Mathematical Modelling
  • Electricity Markets
  • Market analysis
  • Renewable Energy Integration
  • Demand responce
  • Flexibility aggregation

Interests

  • Renewable Energy Integration
  • Energy transition
  • Distributed Energy Resource integration