Master Thesis - Conceptual Integration of the District Level into Agent-Based Energy Market Simulation

Your Job:

As part of this master`s thesis, the agent-based energy market simulation ASSUME should be expanded to include the local neighborhood. The goal is to further develop the existing simulation environment so that issues at the interface between the electricity markets, end customer supply, and decentralized energy systems can be investigated. To this end, suitable models and methods are to be identified, designed, and integrated into ASSUME.
One focus of the thesis is on linking different levels of analysis within the simulation. On this basis, various tariff and bidding approaches are to be investigated in suitable scenarios and evaluated with regard to selected energy-related and system-related parameters.
This results in the following work packages in particular:

• Familiarization with the ASSUME toolbox and the underlying problem
  
• Literature research on relevant topics from the electricity market, end customer supply, and decentralized energy systems
  
• Analysis of the requirements for expanding ASSUME to the neighborhood level
  
• Design of suitable modeling approaches for the intended system expansion
  
• Development and integration of new functionalities into the existing simulation environment
  
• Development and parameterization of suitable investigation and simulation scenarios
  
• Conducting and evaluating analyses of different tariff and bidding approaches
  
• Evaluation of the results using suitable parameters
  
• Documentation, interpretation, and scientific classification of the results

Your Profile:

• Currently pursuing a degree in a relevant field such as energy engineering, mechanical engineering, computer science, industrial engineering, or a comparable field (Master’s degree)
  
• Knowledge of modeling, optimization, and data analysis of energy systems
  
• Interest in electricity markets, energy system analysis, and model-based studies
  
• Proficiency in one or more programming languages (preferably Python)
  
• Independent and structured way of working
  
• Strong English skills; German skills are an advantage

Our Offer:

We work on the very latest issues that impact our society and are offering you the chance to actively help in shaping the change! We support you in your work with:

• SCIENTIFIC ENVIRONMENT: You can expect excellent academic facilities, modern technologies and expert guidance from experienced colleagues
  
• PRACTICAL RELEVANCE: With us, you will gain valuable practical experience alongside your studies, actively participate in interdisciplinary projects and have access to state-of-the-art simulation and analysis tools
  
• PERSONAL RESPONSIBILITY: The opportunity to develop your own expertise in forward-looking fields such as energy market mechanisms, optimisation algorithms and renewable energy systems
  
• WORK-LIFE BALANCE: Optimal conditions for balancing work and private life, as well as a family-friendly company policy. The option for flexible working (regarding location) is generally available by arrangement and in line with upcoming tasks and on-site appointments
  
• FIXED-TERM CONTRACT: The position is for a fixed term of 6 months
  
• FAIR REMUNERATION: Your thesis will be appropriately remunerated by us
  

In addition to exciting tasks and a collegial working environment, we offer you much more: https://go.fzj.de/benefits

We welcome applications from people with diverse backgrounds, e.g. in terms of age, gender, disability, sexual orientation / identity, and social, ethnic and religious origin. A diverse and inclusive working environment with equal opportunities in which everyone can realize their potential is important to us.

The following links provide further information on diversity and equal opportunities: https://go.fzj.de/equality and on specific support options: https://go.fzj.de/womens-job-journey