Author
Listed:
- Songqi Hu
(Science and Technology on Combustion Internal Flow and Thermal-Structure Laboratory, Northwestern Polytechnical University Xi'an, Xi'an 710072, China)
- Guanjie Wu
(Science and Technology on Combustion Internal Flow and Thermal-Structure Laboratory, Northwestern Polytechnical University Xi'an, Xi'an 710072, China)
- Yijin Hua
(Science and Technology on Combustion Internal Flow and Thermal-Structure Laboratory, Northwestern Polytechnical University Xi'an, Xi'an 710072, China)
- Noor Fatima Rashid
(Science and Technology on Combustion Internal Flow and Thermal-Structure Laboratory, Northwestern Polytechnical University Xi'an, Xi'an 710072, China)
- Hongyun Hu
(School of Foreign Languages, Shaanxi Normal University, Xi'an 710062, China)
Abstract
Paraffin fuel has been found to have a regression rate that is higher than conventional HTPB (hydroxyl-terminated polybutadiene) fuel and, thus, presents itself as an ideal energy source for a hybrid rocket engine. The energy characteristics of paraffin-based fuel and HTPB fuel have been calculated by the method of minimum free energy. The thermal degradation characteristics were measured for paraffin, pretreated paraffin, HTPB and paraffin-based fuel in different working conditions by the using differential scanning calorimetry (DSC) and a thermogravimetric analyzer (TGA). The regression rates of paraffin-based fuel and HTPB fuel were tested by a rectangular solid-gas hybrid engine. The research findings showed that: the specific impulse of paraffin-based fuel is almost the same as that of HTPB fuel; the decomposition temperature of pretreated paraffin is higher than that of the unprocessed paraffin, but lower than that of HTPB; with the increase of paraffin, the initial reaction exothermic peak of paraffin-based fuel is reached in advance, and the initial reaction heat release also increases; the regression rate of paraffin-based fuel is higher than the common HTPB fuel under the same conditions; with the increase of oxidizer mass flow rate, the regression rate of solid fuel increases accordingly for the same fuel formulation.
Suggested Citation
Songqi Hu & Guanjie Wu & Yijin Hua & Noor Fatima Rashid & Hongyun Hu, 2015.
"Study on Thermal Degradation Characteristics and Regression Rate Measurement of Paraffin-Based Fuel,"
Energies, MDPI, vol. 8(9), pages 1-24, September.
Handle:
RePEc:gam:jeners:v:8:y:2015:i:9:p:10058-10081:d:55774
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