Energy Transition
We develop technical and economic strategies to enable the energy transition in companies, sectors, and territories, connecting planning, modeling, data, and implementation to long-term goals.
Energy Transition
The energy transition is a structural process that redefines markets, regulations, business models, and production chains on a global scale.
Mitsidi operates in the development of technical studies, regulatory analyses, modeling, and implementation strategies that support governments, institutions, and organizations in building energy systems that are more efficient, resilient, and aligned with international climate goals.
With experience in projects developed across various countries, we integrate strategic vision, technical rigor, and an understanding of local regulatory contexts to support informed decisions and structure viable paths for decarbonization and energy modernization.
More than guiding changes, we structure solutions that transform climate commitments into concrete policies, programs, and results.
Our work covers the analysis and planning of renewable sources — solar photovoltaic, onshore and offshore wind, green hydrogen, and energy storage —, feasibility assessments for distributed generation (DG) and self-production, the study of sectoral regulatory impacts, and the modeling of energy systems for territories and production chains in the process of decarbonization.
Related Services
Studies on Regulation and Market Structures
The evolution of the energy sector depends on clear, predictable regulatory frameworks aligned with energy transition goals. We perform technical regulatory analysis, market structure design, public policy evaluation, and the development of normative proposals.
We act in the interpretation of existing regulatory frameworks and in building recommendations that promote efficiency, competitiveness, and legal certainty.
Our studies support governments, institutions, and companies in strategic decision-making, mitigating regulatory risks and structuring more modern and sustainable markets.
Energy Impact Studies
Energy projects, policies, and investments generate technical, economic, and environmental impacts that must be measured with rigor.
We conduct structured assessments to analyze effects on energy consumption, energy efficiency, emissions, and systemic performance. We use modeling, prospective scenarios, and indicator analysis to support evidence-based decisions.
The result is greater predictability, better resource allocation, and alignment of initiatives with energy transition and sustainability goals.
Production of specialized technical content
Preparation of informative and educational materials with high-quality technical information.
Learning Networks: Energy Efficiency and Renewable Energy
The energy transition accelerates when knowledge and experience are shared in a structured way. We implement Learning Networks based on collaborative methodologies, connecting organizations around processes, best practices, and common goals for energy efficiency and renewable energy.
We offer continuous technical monitoring, methodological support, and specialized assistance, promoting the exchange of experiences, scale gains, and the consolidation of results.
The model strengthens local capacities, generates collective learning, and drives sustainable technical evolution.
Energy Transition
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Frequently Asked Questions
Energy transition is the process of replacing fossil fuels with renewable sources, redefining business models and regulatory frameworks globally. For companies, it represents both risks and opportunities. Mitsidi maps these impacts and structures sector-specific adaptation strategies.
Distributed generation is energy production near the point of consumption, typically solar. In Brazil, it is regulated by ANEEL and allows companies to reduce their bills, record credits, and advance toward decarbonization goals. Mitsidi performs feasibility studies and system sizing.
Green hydrogen is produced through the electrolysis of water using renewable energy, resulting in near-zero emissions. Brazil has significant competitive potential. Mitsidi supports feasibility analysis, project structuring, and strategic positioning within this emerging value chain.
The transition continuously alters the regulatory landscape with new DG rules, energy auctions, and frameworks for green hydrogen. Mitsidi develops regulatory analyses and roadmaps that translate these changes into well-founded strategic decisions.
Energy storage — such as batteries, hydrogen, and pumped-storage hydroelectricity — allows excess energy to be saved for later use, increasing resilience in systems with high renewable penetration. Mitsidi evaluates integrated solutions for energy planning.