Quasi-homogeneous catalytic cracking of hydrocarbon fuels using high dispersible zeolite is an effective way to improve their cooling capacity for the future aircrafts. High hydrocarbon dispersible beta nanozeolites (HD-NZs) were hydrothermally synthesized using silanizing seeds with phenylaminopropyltri-methoxysilane in the organic medium (HDZ-O) and aqueous medium (HDZ-W). IR and TG characterizations indicated that the HDZ-O has more organic groups anchored on its surface than HDZ-W, leading to a higher external surface area and better dispersibility in the jet propellant JP-10 (exo-tricycle[5.2.1.0(2.6)]decane). The quasi-homogeneous catalytic cracking of JP-10 was conducted in an electrically heated tube under 4 MPa. The heat sink of JP-10 reaches 2800 kJ/g at 700 degrees C using 100 ppm HDZ-O as a result of high catalytic cracking conversion of 63.3% and alkenes selectivity (57.5% in the gaseous products), compared with both thermal cracking and catalytic cracking of JP-10 with HDZ-W. The excellent catalytic performance may be contributed to its high external surface area and good dispersibility in the jet propellant JP-10 to form a quasi-homogeneous system. (c) 2014 Elsevier Ltd. All rights reserved.