This paper describes the combined analysis done in pure palm-based wax that can be used as solid fuel in a hybrid rocket engine. The measurement of pure palm wax calorific value was performed using a bomb calorimeter. An experimental rocket engine and static test stand facility were established. After initial measurement and calibration, repeated procedures were performed. Instrumentation supplies carried out allow fuel regression rate measurements, oxidizer mass flow rates and stearic acid rocket motors measurements. Similar tests are also carried out with stearate acid (from palm oil by-products) dissolved with nitrocellulose and bee solution. Calculated data and experiments show that rates and regression thrust can be achieved even in pure-tested palm-based wax. Additionally, palm-based wax is mixed with beeswax characterized by higher nominal melting temperatures to increase moisturizing points to higher temperatures without affecting regression rate values. Calorie measurements and ballistic experiments were performed on this new fuel formulation. This new formulation promises driving applications in a wide range of temperatures.

1.
F.
Migireanu
, “
Small launcher enabled by hybrid rocket motor technology
,” in
17th International Conference on Applied Mechanics and Mechanical Engineering
(
2016
), pp.
1
20
.
2.
M.
Kanazaki
,
S.
Ito
,
F.
Kanamori
,
M.
Nakamiya
,
K.
Kitagawa
and
T.
Shimada
,
Journal of Fluid Science and Technology
11
,
1
9
(
2016
).
3.
W. J.
Larson
,
G. N.
Henry
and
R. W.
Humble
,
Space Propulsion Analysis and Design
(
McGraw-Hill
,
New York
,
1995
).
4.
G. P.
Sutton
and
O.
Biblarz
,
Rocket Propulsion Elements
(
John Wiley and Sons
,
New Jersey
,
2017
).
5.
A.
Karabeyoglu
,
B. J.
Cantwell
and
D.
Altman
, “
Development and testing of paraffin-based hybrid rocket fuels
,” in
37th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit
(
American Institute of Aeronautics and Astronautics
,
Virginia
,
2002
), pp.
1
25
.
6.
A.
Karabeyoglu
,
G.
Zilliac
,
B. J.
Cantwell
,
S.
DeZilwa
and
P.
Castellucci
,
Journal of Propulsion and Power
20
,
1037
1045
(
2004
).
7.
A.
Karabeyoglu
, “
Thermal transients in hybrid rocket fuel Grains-Nonlinear effects
,” in
43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit
(
2007
).
8.
J.
Dyer
,
E.
Doran
,
Z.
Dunn
,
K.
Lohner
,
C.
Bayart
,
A.
Sadhwani
,
G.
Zilliac
,
P. B.
Cantwell
and
A.
Karabeyoglu
, “
Design and development of a 100 km nitrous oxide/paran hybrid rocket vehicle
” in
43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, Joint Propulsion Conferences
(
2007
), pp.
1
9
.
9.
D. B.
Larson
,
E.
Boyer
,
T.
Wachs
,
K. K.
Kuo
,
J. D.
Desain
,
T. J.
Curtiss
and
B. B.
,
Brady
, “
Characterization of the performance of paraffin/LiAlH4 solid fuels in a hybrid rocket system
,” in
47th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit
(
2011
).
This content is only available via PDF.