LunarTechAI is thrilled to announce the open-source release of the Redmoon 40KGF Turbojet Engine, a micro gas turbine that stands as one of the most formidable compact propulsion systems available today. Delivering 40 kilograms of continuous thrust (approximately 392 Newtons) in an ultra-compact form, this engine pushes the boundaries of what's possible for drones, UAVs, and experimental aerospace projects. Drawing from our deep expertise in aviation and space, we've released initial drawings and comprehensive documentation on GitHub, empowering a global community to innovate without barriers.

But what makes the Redmoon 40KGF truly formidable? In a market filled with proprietary engines, it combines raw power, efficiency, and openness in ways that redefine accessibility. Let's dive deeper into why this engine isn't just another design—it's a game-changer.

Powerhouse Performance: Thrust That Punches Above Its Weight

At the heart of the Redmoon's formidability is its exceptional thrust output relative to its size and weight. Generating 40 kgf of thrust, it maintains a footprint that's ideal for integration into small platforms.

• Impressive Thrust Delivery: This level of power enables the engine to propel heavy-lift drones for cargo delivery, search-and-rescue missions, or extended-range operations where efficiency is key.
• Thrust-to-Weight Superiority: In the micro turbojet class, the Redmoon achieves a high thrust-to-weight ratio, making it suitable for applications that demand both strength and portability.
• Efficiency in Extreme Conditions: Operating on the Brayton cycle with a billet-machined compressor and high-temp alloys, it sustains thrust at high RPMs with low fuel consumption. This efficiency translates to longer operational times, enhancing its versatility.

Compact Design: Engineering Mastery in Miniature

Formidability isn't just about power—it's about packing it into a form that's deployable anywhere. The Redmoon's modular architecture sets it apart:

• Ultra-Compact Footprint: With components like the centrifugal billet wheel, diffuser, and turbine shaft sleeve optimized for minimal size, it's designed for seamless integration into constrained spaces.
• Robust and Reliable: Precision bearings, oil lubrication, and a cartridge receiver ensure smooth operation under stress. Integrated safety features, like flameout recovery and EGT sensors, make it dependable for demanding environments.

Open-Source Edge: Democratizing High-Tech Propulsion

What elevates the Redmoon beyond hardware is its open-source nature—a first for such a powerful micro turbojet. Released under Apache 2.0, we've made everything available:

• Innovation Catalyst: Developers can modify the ECU for custom thrust curves or integrate AI-driven controls, accelerating advancements in UAV autonomy. This openness addresses gaps in the industry by providing a transparent foundation for experimentation.
• Community-Driven Evolution: The Redmoon invites contributions for enhancements like alternative fuels or 3D-printed parts, fostering rapid iteration and shared progress.

Inviting Developers: Contribute to the Redmoon Revolution

We're calling on developers, engineers, and innovators worldwide to join the Redmoon project. Whether you're a software expert tweaking the ECU firmware, a hardware hacker designing new mounts, or a data scientist analyzing telemetry for optimizations, your input can shape the future of compact propulsion.

• How to Get Involved: Fork the repository on GitHub and submit pull requests with your improvements—be it code, designs, or documentation. Share your experimental results, modifications, or new use-cases in issues or discussions.
• What We're Looking For: Contributions in areas like enhanced fuel efficiency algorithms, integration with drone autopilots, or safety protocol expansions. Students and hobbyists are especially welcome; this is your chance to build real-world aerospace tech.
• Benefits of Contributing: Gain visibility in the open-source community, collaborate with like-minded creators, and help make aerospace more accessible. Check CONTRIBUTING.md for guidelines and ROADMAP.md for upcoming priorities.

Together, we can evolve the Redmoon into even more powerful variants, driving innovation in aviation and beyond.

Real-World Impact: From Drones to Space

The Redmoon's formidability shines in applications:

• Heavy-Lift UAVs: Powers platforms for cargo, surveillance, or rescue in remote areas.
• Experimental and STEM: Enables supersonic prototypes or lab research, providing a hands-on tool for education.
• Space Synergies: As LunarTechAI advances hybrid propulsion, the Redmoon's principles could scale for suborbital boosts.

Safety and Ethics: Power with Purpose

We emphasize responsible use: high temps (1,000°C) and speeds demand protocols from ETHICS.md. Prohibited for harmful applications—focused on peaceful innovation.

Join us on GitHub: Fork, contribute, and build the future. The Redmoon 40KGF isn't just formidable—it's yours to redefine.

https://github.com/LunarTechAI/Redmoon-40KGF-Open-Source-Model-Turbo-Jet-Engine-Repository/tree/main