Performance Analysis of a Dual-Fuel Sugar Based Solid Rocket Propellant

Adeniyi, Gbadebo Omoniyi; Nkere, Inkechukwu; Adetoro, Lanre; Sholiyi, Olusegun Samuel

doi:10.24018/ejeng.2021.6.2.2347

Cited by 2 publications

(2 citation statements)

References 4 publications

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“…There are different types of propellant for rocket and although the most efficient are usually liquid fuels, using a liquid fuel represents a greater challenge since its implementation requires more mechanical components, for this reason, solid fuel was chosen for this work, and it was made of a mixture of 35% sugar and 65% potassium nitrate [9] since this composition is frequently used for rocketry projects and has been studied and characterized in recent years [5].…”

Section: Solid Fuel Processingmentioning

confidence: 99%

Design and testing of an electromechanical engine for a small solid-propellant rocket using non-metal materials

Olivar

Rio²

2023

J. Phys.: Conf. Ser.

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In this paper an engine prototype of 2 degrees of freedom from a work still in progress that helps a solid fuel rocket to stay vertical during motor operation is presented. One of the philosophies of this paper consists in using cheap and accessible materials, as well as avoiding the use of industrial machinery for its manufacture. This paper describes the procedure to generate solid fuel from a mixture of sugar and potassium nitrate. Subsequently, the design of the engine and tests conserning reusability with the prototype are presented. The design is based solely on obtaining the torques required to keep the prototype rocket moving in a vertical direction. The corresponding equations are written and after linearization, the transfer function is presented and the system is simulated using a PID control. The electromechanical system (ES) as well as the solid fuel motor were manufactured, and even though the ES is not coupled to the motor so the control actions are not evaluated, the performance of the rocket motor is measured using different design options and the propulsion times were evaluated. To measure the orientation and position the BMP280 and MPU6050 sensors were selected, and their stabilization time after turning them on was evaluated. It was found that the materials can be reused at least once for tests up to 23 grams of solid fuel, and that the selected electronic devices must have a stabilization time before ignition.

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Section: Solid Fuel Processingmentioning

confidence: 99%

Design and testing of an electromechanical engine for a small solid-propellant rocket using non-metal materials

Olivar

Rio²

2023

J. Phys.: Conf. Ser.

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“…Historically, sucrose was the most often utilized fuel. Because of their simplicity of manufacture, modern formulations often include fructose, sorbitol, and other sugar kinds [2]. Potassium nitrate is the most often used oxidant.…”

Section: Introductionmentioning

confidence: 99%

Investigation on solid propellant test and time calibration for complete combustion

Tigga,

G.,

P.S.N.

2023

E3S Web Conf.

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A solid propellant is simple and reliable rocket fuel. Once ignited, the propellant cannot be stopped since they burn until they run out. Solid fuel rockets are widely used in military applications such as missiles, model rockets, boosters for satellite launchers and so on because they can be stored for long periods of time without degrading the propellant. The primary objective of this research is to study the burnout mass of solid propellants using various propellants and catalysts. Potassium Nitrate (KNO3) was chosen as an oxidant in the experiment because of its compatibility with other ingredients and low-cost affordability. KNO3 was used as an oxidizer in a 65% ratio with 34% of the fuel and 1% of the catalyst. KNO3, fuel ingredients like Fructose, Glucose and Lactose with catalysts Copper and Aluminum were taken in powdered form. Cylindrical stainless steel with one closed end was taken to fill the cavity, and a concentric hole was made for constant burning. This propellant-filled chamber is fixed strongly in a position so that it does not propel during fuel combustion when thrust is formed. The obtained result shows that the longest burnout mass was secured by burning Glucose with Copper powder and KNO3 for 136 s when compared to the shortest burnout mass was secured by burning Lactose with Aluminum powder and KNO3 mixture to 57 s. The highest temperature of the mixture was Lactose with Copper powder and KNO3 resulted in 518 °C when compared to the lowest temperature of the mixture was Glucose with Copper powder and KNO3 was 211.75 °C.

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Performance Analysis of a Dual-Fuel Sugar Based Solid Rocket Propellant

Cited by 2 publications

References 4 publications

Design and testing of an electromechanical engine for a small solid-propellant rocket using non-metal materials

Design and testing of an electromechanical engine for a small solid-propellant rocket using non-metal materials

Investigation on solid propellant test and time calibration for complete combustion

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