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NewRocket
Netanya, Israel
B
11-50 Employees
2014
Key takeaway
NewRocket specializes in rocket engines designed for in-space propulsion, emphasizing precision maneuverability and powerful performance. Their innovative PowerGel technology, which combines the benefits of liquid and solid propellants, offers a non-toxic, storable fuel that enhances thrust control and safety, making it ideal for high-performance spacecraft.
Reference
Core business
Home | FlashTrade
Meco Rocket Simulator
Cambridge, United Kingdom
A
1-10 Employees
-
Key takeaway
The Meco Rocket Simulator is an innovative platform that offers a hands-on experience for designing, building, and testing rocket engines. With features like detailed fluid and combustion simulation, it allows users to engage in realistic rocket engine simulations, making it an excellent tool for learning rocket science.
Reference
Core business
Revolutionary Simulator to Design/Build/Test Rocket Engines
Unlock the thrill of rocketry with Meco Rocket Simulator, the rocket engine simulation platform. Design and test with unparalleled realism and interactivity!
RocketFuel Industries
Sydney, Australia
A
1-10 Employees
2000
Key takeaway
RocketFuel specializes in web development and IT consulting, with extensive experience in building websites using platforms like WordPress and Drupal.
Reference
Service
Services Archives - RocketFuel Industries
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Rocket Manufacturing
Delta Charter Township, United States
B
1-10 Employees
2011
Key takeaway
Rocket Manufacturing is located at 8725 Ronda Dr, Canton, Michigan, and offers various services.
Reference
Service
Services
Rocket Inc.
New York, United States
B
11-50 Employees
2014
Key takeaway
Rocket Now is a data-driven marketing platform that enhances lead attraction and sales generation for companies.
Reference
Core business
Company
Rocket is a data-driven marketing company that provides solutions for companies to attract leads and generate sales.
SkyEnergy LLC
Dnipro, Ukraine
B
11-50 Employees
2016
Key takeaway
SkyEnergy is actively developing a low-thrust propulsion module, showcasing its expertise in aerospace engineering and its involvement in projects for transport and process optimization. With over 14 years of experience in ESA, NASA, and international projects, the company emphasizes its capabilities in designing and qualifying innovative solutions for space missions.
Reference
Product
Low-thrust propulsion module - SkyEnergy - private enterprise operating in the engineering and space sectors
WEPA-Technologies GmbH
Leverkusen, Germany
A
1-10 Employees
-
Key takeaway
The company, WEPA-Technologies GmbH, specializes in rocket technology, particularly in liquid propellant rocket engines. They focus on planning, development, and manufacturing of tailored solutions, which includes testing capabilities for experimental setups.
Reference
Service
WEPA-Technologies GmbH - Liquid Propellant Rocket Engines
Ursa Major
Berthoud, United States
B
101-250 Employees
2015
Key takeaway
Ursa Major Technologies is a leading provider of propulsion systems, emphasizing its unique campus that integrates engineering, manufacturing, and testing for rapid rocket engine development. Their facilities include multiple test stands and advanced manufacturing technologies, positioning them as a key player in accelerating advancements in the space and defense industries.
Reference
Core business
Home | Ursa Major Technologies
Propulsion systems are the hardest—and riskiest—part of a rocket; we make it easier.
Protolaunch
Vale of White Horse, United Kingdom
A
1-10 Employees
2019
Key takeaway
Protolaunch specializes in high-performance chemical thrusters, including a 20N thruster specifically designed for in-orbit servicing and in-space manufacturing. Their ongoing hot-fire qualification program ensures that these thruster modules are well-prepared for commercial operations in space.
Reference
Core business
Protolaunch | Propulsion
Protolaunch makes high-performance chemical thrusters to meet the mobility demands of the In-space environment
Reaction Engines
Vale of White Horse, United Kingdom
A
101-250 Employees
1989
Key takeaway
Reaction Engines is focused on pioneering technologies that contribute to net zero goals, including sustainable thermal management solutions and innovations in high-speed flight and space access.
Reference
Core business
Reaction Engines - Making Beyond Possible
We're innovating in pursuit of the world's net zero goals. Transforming high-speed flight, and pioneering space access and sustainable technologies to elevate life on Earth.
Technologies which have been searched by others and may be interesting for you:
A rocket engine is a type of propulsion system that generates thrust to propel a rocket or spacecraft. It operates by expelling mass, typically in the form of high-speed exhaust gases produced from the combustion of fuel and an oxidizer. This process adheres to Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. Rocket engines can be classified into two main categories: liquid and solid engines. Liquid engines utilize pumps to inject fuel and oxidizer into a combustion chamber, while solid engines use a preloaded mixture of propellant that ignites to produce thrust. Each type has its unique advantages and applications, making them essential components in various space missions and satellite launches.
A rocket engine operates on the principle of Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. In a rocket engine, propellant—typically a combination of fuel and an oxidizer—is ignited in a combustion chamber. This process generates high-pressure and high-temperature gases that expand rapidly. The expanding gases are expelled through a nozzle at the rear of the engine, creating thrust. The nozzle is specially designed to accelerate the gases, converting thermal energy into kinetic energy. As the gases exit, they push the rocket in the opposite direction, propelling it forward into space. This efficient method of propulsion is crucial for overcoming Earth's gravitational pull and reaching orbit.
1. Solid Rocket Engines
Solid rocket engines utilize a mixture of fuel and oxidizer in a solid form. Once ignited, the combustion process is continuous until all the propellant is consumed. These engines are known for their simplicity and reliability, making them ideal for applications such as booster stages in space launch systems.
2. Liquid Rocket Engines
Liquid rocket engines use liquid propellants, typically a combination of fuel and oxidizer, which are stored separately and mixed in the combustion chamber. This type allows for better control of thrust and can be shut down and restarted, providing flexibility for various missions including satellite launches and interplanetary travel.
3. Hybrid Rocket Engines
Hybrid rocket engines combine features of both solid and liquid engines. They typically use a solid fuel with a liquid oxidizer. This configuration offers the simplicity of solid fuels while allowing for some control over thrust through the liquid oxidizer, enhancing overall performance.
4. Electric Rocket Engines
Electric rocket engines, also known as ion or plasma engines, utilize electricity to accelerate ions or plasma to produce thrust. These engines are highly efficient and suitable for long-duration missions in space, such as deep space exploration where they can operate for extended periods with a small amount of fuel.
Rocket engines require materials that can withstand extreme temperatures and pressures. Often, superalloys are used for engine components due to their strength and resistance to thermal degradation. These alloys, commonly made from nickel or cobalt, provide durability in high-stress environments. Additionally, composite materials are increasingly utilized for structural components. These materials offer a high strength-to-weight ratio, which is crucial for minimizing overall mass while maintaining structural integrity. Furthermore, ceramics are employed in certain applications for their excellent heat resistance, particularly in combustion chambers and nozzles, ensuring the engine can perform efficiently under demanding conditions.
The efficiency of a rocket engine is primarily measured by its specific impulse (Isp), which indicates how effectively the engine converts propellant into thrust. Specific impulse is defined as the thrust produced per unit weight flow of the propellant and is typically expressed in seconds. Higher specific impulse values signify greater efficiency, allowing the rocket to achieve more thrust with less fuel. For chemical rocket engines, specific impulse values generally range between 250 to 450 seconds. In contrast, advanced propulsion systems like ion engines can achieve specific impulses exceeding 3,000 seconds, showcasing their superior efficiency in utilizing propellant. Thus, the efficiency of a rocket engine plays a crucial role in mission planning and fuel management.
Some interesting numbers and facts about your company results for Rocket Engine
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 5917 |
| Amount of suitable service providers | 6745 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1989 |
| Youngest suiting company | 2019 |
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Some interesting questions that has been asked about the results you have just received for Rocket Engine
What are related technologies to Rocket Engine?
Based on our calculations related technologies to Rocket Engine are Space Technologies, Military, Commercial Aviation, Airport Security
Which industries are mostly working on Rocket Engine?
The most represented industries which are working in Rocket Engine are IT, Software and Services, Oil, Energy and Gas, Other, Manufacturing, Aviation and Aerospace
How does ensun find these Rocket Engine Manufacturers?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
