About This Project
Aerospike engines are one of the most unique and underutilized rocket engines in the aerospace industry, with their unique geometry, and ever more unique efficiency boost, it's quite strange how little use they see in the industry. By building both a solid and liquid test engine, my team and I aim to document the process of building an aerospike, we will then publish our findings of the top challenges we faced, so others prospecting to build an aerospike will know the challenges going in.
Ask the Scientists
Join The DiscussionWhat is the context of this research?
I've been working on building rocket engines for the last two years. After spending some time in the HPR community, I realized that aerospikes had little to no representation in the hobby. I'm wondering how much more or less efficient aerospikes are in comparison to traditional engines, and why they are not researched in the aerospace industry, as they're the same amount efficient at sea level, as at altitude, something traditional rocket engines can do. I'm going to do this by making a demonstrator liquid aerospike, which will show myself and my collaborators the issues engineers face while developing an aerospike, but at a smaller scale. I hope to find resolutions for these problems.
What is the significance of this project?
This project will provide data to people who might be looking into using an aerospike for their launch vehicle, and show them how to remediate some of the problems they may encounter.
What are the goals of the project?
I would like to develop a solid aerospike and compare it against an HPR motor of the same size, using the same fuel. The only comparable difference being the type of nozzle, one being a traditional de laval nozzle, and one being a custom machined aerospike. After that, I would like to create a liquid aerospike to see what design challenges engineers face when deciding to use an aerospike or not, as aerospikes aren't widely used throughout industry.
Budget
Solid Aerospike Test Article: This will be used to test how viable aerospikes are in small to medium applications, such as high powered rocketry, as well as sounding rockets.
Liquid Aerospike Test Article: This funding will be used to see how challenging it is to make an aerospike, and to characterize the major problems engineers face when deciding whether to use an aerospike or not. Liquids provide a better understanding of viability, because it's more common when aerospikes are used.
Test Infrastructure: This consists of all things based around the engines that aren't measuring data, ie, fuel tanks, ignition systems, and the test stand.
Data Logging Devices: This consists of all the things based around measuring data, for example things like load cells, high speed cameras, pressure gauges.
Makerspace Membership (6 months): Our local makerspace allows us to use machinery such as lathes, cnc routers, and 3d printers we'd otherwise not have access to.
Endorsed by
Project Timeline
Since I'm already developing a solid aerospike, the development and testing would happen in the next two months. After that, the timeline becomes a lot more stretched, as a liquid aerospike isn't already in development.
Apr 07, 2023
Project Launched
Apr 24, 2023
Solid Aerospike R and D Starts
May 02, 2023
Solid Aerospike Testing
May 09, 2023
Solid Aerospike Material Analysis, Data Compilation and Publishing
Jun 01, 2023
Liquid Aerospike R and D Starts
Meet the Team
Joshua Billingsley
Growing up traveling the world, and experiencing different cultures, Joshua has been able to evaluate and assess problems by seeing them from the other person's point of view. As a student pilot with six years of experience, Joshua strives in stressful situations- a trait which has come in handy during his time in high school. While maintaining a 3.5 GPA, Joshua has also managed to grow his own aerospace technology startup from the ground up. He and his startup are dedicated to making aerospace propulsion both more accessible and open source. Some traits he has picked up while running his own startup consist of: team communication, time management, as well as reading and understanding data gathered from his companies various tests. When he's not in the lab, he enjoys rock climbing, kayaking, and cooking. In his future he aims to study either aerospace engineering, and hopes to still be working at his business.
Ethan Flamand
As a high-end student who maintains a 4.5 GPA, and has extreme fascination in the field of engineering, he has always been a valuable asset to any engineering project that he's taken part in. Membership and co-ownership of JPBaerospace has taken his potential to new heights, and has really given him a strong foothold in subjects that he otherwise would be oblivious to. He is staunchly driven, and realistically optimistic. He can bring a level-headed and informed perspective to any scenario. After meeting Josh just over a year ago, it became very clear that he, too was a very capable individual with a strong engineering foundation. As partners, they will be able to achieve great feats for the world of rocketry and propulsion.
Lab Notes
Nothing posted yet.
Project Backers
- 2Backers
- 1%Funded
- $15Total Donations
- $7.50Average Donation