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    Reusable Rockets: Workings, Challenges And Limitations

    By Vishal kumar
    30 Jan'23  5 min read
    Reusable Rockets: Workings, Challenges And Limitations
    Synopsis

    What are the inner workings of reusable rockets, including propulsion systems, working principles, and the different types of engines? It also covers the challenges and limitations of the technology. This concept relates to Newton's Third Law of Motion and principles of action and reaction, helping students to understand the science behind reusable rockets. Read on to know more…

    Reusable Rockets: Workings, Challenges And Limitations
    Synopsis

    What are the inner workings of reusable rockets, including propulsion systems, working principles, and the different types of engines? It also covers the challenges and limitations of the technology. This concept relates to Newton's Third Law of Motion and principles of action and reaction, helping students to understand the science behind reusable rockets. Read on to know more…

    The concept of reusable rockets is a game-changer in the field of space exploration. The ability to launch and land a rocket multiple times not only reduces costs but also opens new possibilities for space travel and research. But how exactly do these reusable rockets work?

    Rocket Propulsion And How It Works

    Rocket propulsion is the method by which a rocket generates thrust to move through the air or space by burning fuel and an oxidiser that creates hot gases that are expelled through a nozzle. The hot gases produce thrust, which is greater than the force of gravity acting on the rocket in order to lift off and move forward.

    The operation of a rocket is often described using Newton's Third Law, which states that for every action, there is an equal and opposite reaction. In the case of a rocket, the action is the expulsion of hot gases from the rocket's engine, and the reaction is the movement of the rocket in the opposite direction. This is similar to the scenario when a person jumps out of a boat, the boat will move in the opposite direction of the person's jump.

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    Rocket engines generate thrust by expelling an accelerated fluid (usually a high-pressure gas created by burning solid or liquid propellants, made of fuel and oxidiser ) through a nozzle. The combustion process takes place in a chamber, where the high temperatures and pressures are ideal for optimal performance. The gas expands as it exits the nozzle, reaching supersonic speeds and creating a reaction that propels the rocket in the opposite direction. Combustion is the most commonly used method for rocket propulsion due to its efficiency in generating high temperatures and pressures.

    Types Of Rocket Engines

    There are several types of rocket engines, each with its own unique characteristics and uses. Some common types include:

    • Solid Rocket Engines: These engines use solid fuel and an oxidiser which are premixed and packed into the rocket's casing. They are known for their simplicity, reliability, and high thrust-to-weight ratio.

    • Liquid Rocket Engines: These engines use liquid fuel and an oxidiser that are stored in separate tanks and mixed together in the engine. They are known for their high thrust and the ability to throttle and control the thrust output.

    • Hybrid Rocket Engines: These engines use a combination of solid and liquid fuels. The solid fuel serves as the fuel, while the liquid oxidiser is injected into the combustion chamber. They offer the benefits of both solid and liquid rocket engines.

    • Cryogenic Rocket Engines: These engines use cryogenic liquid hydrogen and liquid oxygen as propellants. They are known for their high specific impulse, which is a measure of the efficiency of a rocket engine.

    • Electric Rocket Engines: These engines use electric power to accelerate the propellant, instead of chemical reactions. They are known for their high specific impulse and low thrust, making them ideal for long-duration missions.

    • Ion Rocket Engines: These engines ionize a neutral gas, like xenon, and accelerate the ions to produce thrust. They are known for their high specific impulse and low thrust, making them ideal for long-duration missions.

    Each type of rocket engine has its own advantages and disadvantages, and the choice of which engine to use depends on the specific requirements of the mission or application.

    How Reusable Rockets Work

    Reusable rockets are designed to be launched multiple times and are capable of landing back on Earth or on a platform in the ocean so that they can be used again. The basic working principle of reusable rockets is the same as that of traditional, single-use rockets, which rely on the principle of action and reaction described by Newton's Third Law of Motion.

    A reusable rocket is powered by one or more rocket engines, which burn a mixture of fuel and an oxidiser to produce hot gases. These gases are expelled from the engine nozzle at high speeds, producing thrust that propels the rocket upward.

    During the initial launch phase, the rocket's engines are operated at full thrust, accelerating the rocket to high speeds and lifting it off the launch pad. As the rocket climbs higher into the atmosphere, the engines are gradually throttled back to reduce the amount of thrust needed to overcome the force of gravity.

    Once the rocket reaches orbit or its intended destination, the engines are shut off and the rocket coasts to its destination.

    For landing back on earth, the rocket will use a combination of its engines and wings or fins, depending on the design, to control its descent and landing.

    When the rocket is back on the ground or on a platform, it can be inspected, serviced, and refuelled for its next launch. This process of reuse significantly reduces the costs associated with traditional, single-use rockets.

    It's important to note that not all reusable rocket designs are the same, some like SpaceX's Falcon 9 and Falcon Heavy recover the first stage of the rocket and land it back on earth while others like Blue Origin's New Shepard recover both stages.

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    Challenges And Limitations Of Reusable Rocket Technology

    Reusable rocket technology has the potential to significantly reduce the cost of space launches, but it also comes with a set of challenges and limitations.

    • Landing and Recovery: Landing a rocket back on Earth or a platform in the ocean is a complex task that requires a high degree of precision and accuracy. The rocket must be able to withstand the stresses of re-entry and landing, and the landing site must be equipped with the necessary infrastructure to receive and service the rocket.

    • Reliability: Reusable rockets must be able to withstand multiple launches and landings, which can put a significant amount of stress on the rocket's systems and components. Ensuring the reliability of these systems is crucial to the success of reusable rocket technology.

    • Cost: Reusable rocket technology is still in its early stages, and the costs associated with developing, testing, and launching reusable rockets are significant. Additionally, the costs associated with maintaining and servicing reusable rockets over time can be high.

    • Safety: Reusable rocket technology poses new safety risks, such as the potential for accidents during launch, landing, or recovery. Ensuring the safety of personnel and equipment is crucial to the success of reusable rocket technology.

    • Technology maturity: Reusable rocket technology is still relatively new and not yet fully mature and proven. There are still many technical challenges that need to be overcome before it becomes a widely-used and reliable technology.

    In short, reusable rocket technology is a promising field with the potential to revolutionise space launch capabilities, but it faces significant challenges that need to be overcome before it can be fully realised.

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