Combustion
Combustion simply means burning...
To launch a rocket or move a rocket through space, we must use a propulsion system to generate thrust. Thrust is generated through an application of Newton’s third law of motion. In solid and liquid fuelled rocket engines, the working gas is produced through the burning of a fuel to produce power. Burning a fuel is called combustion. Combustions is a chemical process in which a substance reacts rapidly with oxygen and gives off heat. The original substance is called the fuel, and the source of the oxygen is called the oxidizer. The fuel and oxidizer can be a solid, liquid, or gas. For rocket propulsion the fuel and oxidizer are usually stored as either a liquid or a solid.
During combustion, new chemical substances are created from the fuel and the oxidizer. These substances are called exhaust. Most of the exhaust comes from the chemical combinations of the fuel and oxygen. The temperature of the exhaust is high because of the heat that is transferred to the exhaust during combustion. As a result of the high temperature, exhausts usually occur as a gas, but there can be liquid or solid exhaust products as well. Soot, for example, is a form of solid exhaust that occurs in some combustion processes.
During the combustion process, as the fuel and the oxidizer are turned into exhaust products, heat is generated. Some source of heat is usually necessary to initiate combustion. Gasoline and air are both present in you automobile fuel tank; but combustion does not occur due to no source of heat. Also, once combustion gets started, we don’t have to provide the heat source because the heat of combustion will keep things going. E.g. we don’t have to keep lighting a campfire, it just keeps burning.
To summarize, for combustion to occur three things must be present: a fuel to be burned, a source of oxygen, and a source of heat. As a result in combustion, exhausts are created and heat is released. You can control or stop combustion process by controlling the amount of fuel available, the amount of oxygen available, or the source of heat.
There are some unique liquid rocket propellants, called hypergolic propellants that do not require an external heat source to begin combustion. Hypergolic propellants burn on contact with one another. The advantage of using hypergolic propellants is that the engine design is simplified because no igniter is required, and the engine "fires" every time. The disadvantage is that the propellants are highly toxic and must be kept separate at all times to prevent unwanted combustion. Hypergolic propellants have been used on missiles like the Titan series and for thrusters on some spacecraft.
To launch a rocket or move a rocket through space, we must use a propulsion system to generate thrust. Thrust is generated through an application of Newton’s third law of motion. In solid and liquid fuelled rocket engines, the working gas is produced through the burning of a fuel to produce power. Burning a fuel is called combustion. Combustions is a chemical process in which a substance reacts rapidly with oxygen and gives off heat. The original substance is called the fuel, and the source of the oxygen is called the oxidizer. The fuel and oxidizer can be a solid, liquid, or gas. For rocket propulsion the fuel and oxidizer are usually stored as either a liquid or a solid.
During combustion, new chemical substances are created from the fuel and the oxidizer. These substances are called exhaust. Most of the exhaust comes from the chemical combinations of the fuel and oxygen. The temperature of the exhaust is high because of the heat that is transferred to the exhaust during combustion. As a result of the high temperature, exhausts usually occur as a gas, but there can be liquid or solid exhaust products as well. Soot, for example, is a form of solid exhaust that occurs in some combustion processes.
During the combustion process, as the fuel and the oxidizer are turned into exhaust products, heat is generated. Some source of heat is usually necessary to initiate combustion. Gasoline and air are both present in you automobile fuel tank; but combustion does not occur due to no source of heat. Also, once combustion gets started, we don’t have to provide the heat source because the heat of combustion will keep things going. E.g. we don’t have to keep lighting a campfire, it just keeps burning.
To summarize, for combustion to occur three things must be present: a fuel to be burned, a source of oxygen, and a source of heat. As a result in combustion, exhausts are created and heat is released. You can control or stop combustion process by controlling the amount of fuel available, the amount of oxygen available, or the source of heat.
There are some unique liquid rocket propellants, called hypergolic propellants that do not require an external heat source to begin combustion. Hypergolic propellants burn on contact with one another. The advantage of using hypergolic propellants is that the engine design is simplified because no igniter is required, and the engine "fires" every time. The disadvantage is that the propellants are highly toxic and must be kept separate at all times to prevent unwanted combustion. Hypergolic propellants have been used on missiles like the Titan series and for thrusters on some spacecraft.