Project
Project
Project
Advanced energy systems engineering
We design, model, and develop advanced energy system architectures from first principles, focusing on thermal, mechanical, and phase-change suited to extreme and infrastructure-limited environments.
Details
Overview
Planetary Energy Systems conducts foundational research and engineering into advanced energy system architectures designed for operation in extreme, remote, and infrastructure-limited environments.
Our work integrates thermal, mechanical, and phase-change principles to explore novel pathways for resilient and scalable energy generation.
Goals
Design energy system architectures from first-principles physical analysis
Investigate thermal and phase-change mechanisms applicable to harsh environments
Develop modular concepts capable of scaling across deployment sizes and use cases
Participants
Our research activities engage engineers, applied physicists, and technical collaborators across energy systems, mechanical design, and environmental engineering disciplines.
Key Focus Areas
Thermal-gradient and phase-change energy concepts
Mechanical energy conversion architectures
Modular system design for extreme environmental operation
Impact
By focusing on fundamental engineering and environmental coupling, this work aims to expand the feasibility of long-duration energy generation in locations where conventional power systems are impractical or unavailable.
Overview
Planetary Energy Systems conducts foundational research and engineering into advanced energy system architectures designed for operation in extreme, remote, and infrastructure-limited environments.
Our work integrates thermal, mechanical, and phase-change principles to explore novel pathways for resilient and scalable energy generation.
Goals
Design energy system architectures from first-principles physical analysis
Investigate thermal and phase-change mechanisms applicable to harsh environments
Develop modular concepts capable of scaling across deployment sizes and use cases
Participants
Our research activities engage engineers, applied physicists, and technical collaborators across energy systems, mechanical design, and environmental engineering disciplines.
Key Focus Areas
Thermal-gradient and phase-change energy concepts
Mechanical energy conversion architectures
Modular system design for extreme environmental operation
Impact
By focusing on fundamental engineering and environmental coupling, this work aims to expand the feasibility of long-duration energy generation in locations where conventional power systems are impractical or unavailable.
Gallery
Ready to develop the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore, develop, and validate novel energy architectures designed for extreme environments — from Earth-based infrastructure to off-planet applications.
Ready to develop the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore, develop, and validate novel energy architectures designed for extreme environments — from Earth-based infrastructure to off-planet applications.
Ready to develop the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore, develop, and validate novel energy architectures designed for extreme environments — from Earth-based infrastructure to off-planet applications.