Home Jobs Energy and Power System Modeler and Analyst (f/m/d)
Back to Jobs

Energy and Power System Modeler and Analyst (f/m/d) - Job Opportunity at HITACHI ENERGY LTD

Zürich, Switzerland
Full-time
Senior
Posted: May 24, 2025
Hybrid
CHF 120,000 - CHF 160,000 per year (approximately USD 130,000 - USD 175,000). This estimate reflects the senior-level requirements, specialized technical expertise in power systems and optimization, Switzerland's high-cost market, and Hitachi Energy's position as a major industrial technology company.

Benefits

Flexible working practices that optimize personal and business performance while creating an environment for skill development and growth
Accommodation support for qualified individuals with disabilities during the job application process
Opportunity to work with global experts, research institutions, and industry leaders
Professional development through collaboration with engineers, researchers, and consultants across the organization

Key Responsibilities

Develop and analyze forward-looking energy system scenarios that reflect technological innovation, policy evolution, and societal trends across global regions to shape the future of sustainable energy
Contribute to cutting-edge capacity expansion models using advanced optimization techniques to design resilient, multi-energy systems for tomorrow's grid infrastructure
Simulate and integrate flexible grid components including power electronics and grid-forming controls into planning tools for next-generation energy systems
Collect, process, and interpret complex regional energy data to support strategic simulations and planning initiatives that drive business outcomes
Assess the impact of emerging technologies, climate change, and policy shifts on energy systems while identifying market risks and opportunities
Design and maintain sophisticated software applications that optimize energy system planning and support critical strategic decision-making processes
Collaborate with global experts, research institutions, and industry leaders to advance scenario modeling and energy system analysis capabilities
Translate complex technical findings into clear reports, presentations, and publications to drive knowledge sharing and informed strategic action across the organization

Requirements

Education

Master's or PhD in Electrical Engineering, Energy Science, or a related field

Experience

Proven experience developing optimization algorithms for power system planning

Required Skills

Deep expertise in linear, nonlinear, integer, and stochastic programming Proficient in machine learning methods—regression, classification, clustering, time-series, deep learning, and reinforcement learning Experience developing optimization algorithms for power system planning using tools like Python, MATLAB, and Gurobi Skilled in modeling and simulating power systems, with experience integrating APIs and tools for optimal system planning Hands-on experience with power electronics and grid-forming control systems, including RMS and EMT simulations Strong analytical skills with Python libraries like Pandas, GeoPandas, Plotly, and JSONPickle Excellent problem-solving skills, collaborative mindset, and the ability to clearly communicate technical concepts to a diverse audience
Advertisement
Ad Space

Sauge AI Market Intelligence

Industry Trends

The global energy transition is accelerating demand for sophisticated modeling and simulation capabilities as utilities and grid operators navigate the integration of renewable energy sources, storage systems, and distributed energy resources. This shift requires advanced analytical tools to manage grid stability and optimize system performance. Carbon neutrality commitments by governments and corporations worldwide are driving unprecedented investment in energy system transformation, creating high demand for professionals who can model complex scenarios and optimize multi-energy systems for decarbonization pathways. The rise of artificial intelligence and machine learning in energy system planning is revolutionizing how grid operators predict demand, optimize generation dispatch, and manage grid flexibility, making expertise in these technologies increasingly valuable. Power electronics and grid-forming technologies are becoming critical as traditional synchronous generators are replaced by inverter-based resources, requiring specialized knowledge in simulation and control systems to maintain grid stability and reliability.

Role Significance

Likely working within a team of 8-15 technical professionals including power system engineers, data scientists, and software developers, with regular collaboration across multiple international teams and external research partnerships.
This is a senior individual contributor role with significant technical leadership responsibilities. The position involves developing strategic energy scenarios and advanced modeling tools that directly influence business decisions and technology development directions across global markets.

Key Projects

Development of regional energy transition scenarios for major utility clients and government agencies Creation of optimization algorithms for multi-billion dollar grid infrastructure investments Integration of renewable energy forecasting models with grid stability analysis tools Design of digital twin platforms for power system planning and operations Analysis of policy impacts on energy system economics and technology deployment

Success Factors

Ability to translate complex mathematical optimization problems into practical engineering solutions that address real-world grid challenges and business objectives Strong collaboration skills to work effectively with diverse stakeholders including utility engineers, policy makers, research institutions, and technology vendors across different time zones and cultural contexts Continuous learning mindset to stay current with rapidly evolving energy technologies, regulatory frameworks, and market structures in the global energy transition Systems thinking capability to understand interdependencies between technical, economic, and policy factors affecting energy system evolution Communication excellence to present technical findings to executive leadership and external clients in ways that drive strategic decision-making and investment priorities

Market Demand

Very High - The energy transition and decarbonization goals are creating exceptional demand for professionals with advanced modeling and optimization skills in power systems, particularly those with AI/ML capabilities and experience in grid-forming technologies.

Important Skills

Critical Skills

Advanced optimization expertise is absolutely essential as this forms the core methodology for solving complex energy system planning problems, including capacity expansion, unit commitment, and economic dispatch optimization that can involve millions of variables and constraints Machine learning and AI proficiency is increasingly critical as the energy industry adopts predictive analytics for demand forecasting, renewable energy integration, and grid operations, with deep learning methods becoming standard tools for handling high-dimensional energy data Power systems modeling skills are fundamental for understanding grid physics, stability analysis, and the technical constraints that must be incorporated into optimization models to ensure realistic and implementable solutions Programming expertise in Python, MATLAB, and optimization solvers like Gurobi is essential for developing, testing, and deploying the sophisticated algorithms and simulation tools required for modern energy system analysis

Beneficial Skills

Knowledge of power electronics and grid-forming controls provides valuable insight into emerging grid technologies and their modeling requirements, positioning professionals for leadership roles in next-generation grid development Experience with geospatial analysis and data visualization tools enhances the ability to communicate complex technical results to diverse stakeholders and support strategic decision-making processes Understanding of energy economics, carbon markets, and regulatory frameworks enables more comprehensive analysis of energy transition scenarios and policy impacts Project management and stakeholder engagement skills become increasingly important for senior roles involving coordination of complex multi-disciplinary projects and client relationships

Unique Aspects

This role combines cutting-edge academic research with practical industrial applications, offering the opportunity to influence global energy policy and technology development through advanced modeling and scenario analysis
The position provides exposure to the full spectrum of energy transition challenges, from technical grid stability issues to economic optimization and policy analysis, making it ideal for professionals seeking broad impact in the energy sector
Working at the intersection of artificial intelligence, power systems engineering, and climate policy, this role offers unique opportunities to develop and apply emerging technologies to solve critical global challenges
The global scope of the position includes collaboration with international research institutions and exposure to diverse regional energy markets, providing valuable cross-cultural and multi-market experience

Career Growth

3-5 years to technical leadership or management roles, 5-8 years to senior executive positions, depending on performance and business expansion in the rapidly growing energy transition market.

Potential Next Roles

Senior Principal Engineer or Technical Fellow focusing on advanced energy system research and development Engineering Manager leading power system modeling and analytics teams Business Development Manager for energy consulting and system integration services Chief Technology Officer or VP of Engineering at energy technology startups or consulting firms Senior Technical Consultant providing specialized expertise to utilities, governments, and energy companies

Company Overview

HITACHI ENERGY LTD

Hitachi Energy is a global technology leader and joint venture between Hitachi and ABB's power grids business, specializing in advancing sustainable energy systems worldwide. The company combines deep engineering expertise with digital innovation to accelerate the energy transition and create value for utilities, industries, and society.

As one of the world's largest power grid technology companies, Hitachi Energy holds leading market positions in high-voltage equipment, grid automation, and energy storage solutions, competing directly with Siemens Energy, GE Grid Solutions, and Schneider Electric.
Switzerland serves as a key European hub for Hitachi Energy's research and development activities, with Zürich being strategically positioned to serve European, Middle Eastern, and African markets while maintaining close connections to leading technical universities and research institutions.
The company emphasizes innovation, sustainability, and collaborative global teamwork, with a strong engineering culture that values technical excellence, continuous learning, and making meaningful contributions to solving global energy challenges.
Advertisement
Ad Space
Apply Now

Data Sources & Analysis Information

Job Listings Data

The job listings displayed on this platform are sourced through BrightData's comprehensive API, ensuring up-to-date and accurate job market information.

Sauge AI Market Intelligence

Our advanced AI system analyzes each job listing to provide valuable insights including:

  • Industry trends and market dynamics
  • Salary estimates and market demand analysis
  • Role significance and career growth potential
  • Critical success factors and key skills
  • Unique aspects of each position

This integration of reliable job data with AI-powered analysis helps provide you with comprehensive insights for making informed career decisions.