Advanced planetary energy systems engineering & research.
Advanced planetary energy systems engineering & research.
Advanced planetary energy systems engineering & research.
Forging the future of planetary energy systems.
Forging the future of planetary energy systems.
We research and develop advanced energy, thermal, and mechanical systems for extreme environments—bridging Earth-based infrastructure, early off-world deployment, and long-term planetary development.
Our work is grounded in first-principles engineering and focused on scalable, durable architectures that support exploration, industrial growth, and future civilisation beyond Earth.
Our research supports institutions, partners, and collaborators shaping the next century of energy systems for Earth and beyond.
We research and develop advanced energy, thermal, and mechanical systems for extreme environments—bridging Earth-based infrastructure, early off-world deployment, and long-term planetary development.
Our work is grounded in first-principles engineering and focused on scalable, durable architectures that support exploration, industrial growth, and future civilisation beyond Earth.
Our research supports institutions, partners, and collaborators shaping the next century of energy systems for Earth and beyond.
About Planetary Energy Systems
About Planetary Energy Systems
About Planetary Energy Systems
Redefining energy generation for extreme environments.
Planetary Energy Systems Pty Ltd is an Australian research and development company focused on novel energy generation and storage technologies.
Our work centers on modular thermal , mechanical, and phase-change systems designed to operate reliably in extreme, remote, and infrastructure-limited environments — from terrestrial applications to future off-world deployment.
We prioritize robustness, scalability, and passive operation, with a strong emphasis on long-term sustainability and resilience under harsh environmental conditions.
Our research and development pathway.
Our work follows a deliberate research and development pathway — from identifying overlooked opportunities in extreme environments to developing protected system concepts and advancing them through strategic partnerships.
Opportunity identification
We identify energy challenges and unrealised opportunities in extreme and infrastructure-limited environments, reframing environmental constraints as potential sources of usable energy.
Opportunity identification
We identify energy challenges and unrealised opportunities in extreme and infrastructure-limited environments, reframing environmental constraints as potential sources of usable energy.
Concept development & innovation
Identified opportunities are translated into novel system concepts through first-principles analysis, engineering design, and creative problem-solving that prioritises robustness and simplicity.
Concept development & innovation
Identified opportunities are translated into novel system concepts through first-principles analysis, engineering design, and creative problem-solving that prioritises robustness and simplicity.
Intellectual property & validation pathways
Promising concepts are refined, protected through intellectual property strategies, and prepared for advancement through analytical validation and partner-led testing pathways.
Intellectual property & validation pathways
Promising concepts are refined, protected through intellectual property strategies, and prepared for advancement through analytical validation and partner-led testing pathways.
Partnerships & technology progression
Selected systems are advanced through collaboration with industry, research institutions, or government partners, enabling prototyping, testing, and future deployment beyond the research stage.
Partnerships & technology progression
Selected systems are advanced through collaboration with industry, research institutions, or government partners, enabling prototyping, testing, and future deployment beyond the research stage.
Opportunity identification
We identify energy challenges and unrealised opportunities in extreme and infrastructure-limited environments, reframing environmental constraints as potential sources of usable energy.
Concept development & innovation
Identified opportunities are translated into novel system concepts through first-principles analysis, engineering design, and creative problem-solving that prioritises robustness and simplicity.
Intellectual property & validation pathways
Promising concepts are refined, protected through intellectual property strategies, and prepared for advancement through analytical validation and partner-led testing pathways.
Partnerships & technology progression
Selected systems are advanced through collaboration with industry, research institutions, or government partners, enabling prototyping, testing, and future deployment beyond the research stage.
Charting the course to planetary-scale energy systems.
Our work follows a staged progression — from protected innovation to partnership-driven development — designed to responsibly advance novel energy systems from concept to real-world application.
Samuel Jaggard
Director, Planetary Energy Systems Pty Ltd
Our philosophy
Samuel Jaggard
Director, Planetary Energy Systems Pty Ltd
Our philosophy
Samuel Jaggard
Director, Planetary Energy Systems Pty Ltd
Our philosophy
Ready to explore the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore and develop next-generation energy concepts for extreme environments.
Research-driven development
Intellectual property focused
Partnership-led parthways
Ready to explore the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore and develop next-generation energy concepts for extreme environments.
Research-driven development
Intellectual property focused
Partnership-led parthways
Ready to explore the next generation of planetary energy systems?
Partner with Planetary Energy Systems to explore and develop next-generation energy concepts for extreme environments.