RT Journal Article
ID 1cfb797242d559ef
A1 Tang, Yue
A1 Zhang, Wei
A1 Chen, Suhang
A1 Yu, Hongsheng
A1 Shen, Ruiqi
A1 De Luca, Luigi T.
A1 Ye, Yinghua
T1 A NOVEL POLYETHYLENE PARTICLES/PARAFFIN-BASED SELF-DISINTEGRATION FUEL FOR HYBRID ROCKET PROPULSION
JF International Journal of Energetic Materials and Chemical Propulsion
JO IJEMCP
YR 2018
FD 2019-01-10
VO 17
IS 3
SP 205
OP 216
K1 hybrid rocket propulsion
K1 polyethylene particles
K1 paraffin-based fuel
K1 self-disintegration
K1 regression rate
AB Improving the regression rate of fuels is one of the key issues for solid-liquid hybrid rocket propulsion.
In this paper, a novel polyethylene particles/paraffin-based self-disintegration composite fuel was designed. The combustion characteristics and combustion flame of fuels were tested under oxygen flow by using a homemade combustion chamber at 1 MPa. The influence of mass fraction and
particle size of polyethylene on combustion performance of fuels was obtained and the dependence of regression rates and mass burning rates with the oxidizer mass flux was revealed. The recorded videos showed that numerous burning particles flew out of the burning surface during combustion
which was more intense at high oxidizer mass flux; these self-disintegration particles had a promoting effect on the propulsion performance. The regression and mass burning rates increased first and then decreased with the increasing of mass percentage of polyethylene particles. Compared with
pure paraffin, the average regression rates of formulations blended with 5% and 10% polyethylene particles were increased by 9.4% and 23.0%, and the self-disintegration of fuel plays a leading role in promoting the regression rate. However, when the addition amount reached 15% and 20%, the
average regression rates were reduced by 5.5% and 13.2%, which was due to high melting point and high decomposition temperature of polyethylene. The effect of particle size on the combustion showed that small particles are favorable for increasing the regression rates at high oxidizer mass
flux. The regression rates of fuels with three different sizes of polyethylene particles were increased
by 21.0%, 11.2%, and –1.6% at 367 kg/(m^{2}·s). Small-size particles have a more pronounced effect on the regression rates owing to dense particle dispersion and violent particle scattering. The results may be of great significance for the development of regression rate fuels.
PB Begell House
LK http://dl.begellhouse.com/journals/17bbb47e377ce023,7470a69b0161120b,1cfb797242d559ef.html