Modeling and experimental testing of a UAV liquid hydrogen propulsion set.

In this paper, an analytical model of an Unmanned Aerial Vehicle (UAV) propulsion system using liquid hydrogen to supply a fuel cell is presented. The article also describes experimental tests of the performance of a liquid hydrogen (LH 2) tank at different ambient temperatures and ground tests of the UAV propulsion system using LH 2. These tests were used to validate and calibrate the analytical model. The model is of reduced order and is based on the literature. Despite the simplicity of the model, the tank Boil-Off Gas (BOG) rate and pressure drop, the time for complete evaporation of LH 2 , the fuel cell performance, and the coolest temperature that the hydrogen can reach, were predicted with deviations not exceeding 0.3%, 0.5%, 2.2%, 0.6%, and 0.5% respectively. The final proposed model allows the incorporation of different conditions, materials, and geometries to suit each mission, all at low operational cost. • Analytical modeling of a UAV liquid hydrogen propulsion set. • Experimental data on liquid hydrogen tank and propulsion chain are presented. • Customization of conditions, materials, and geometries at a low operational cost. • Boil-off gas and pressure drop predicted with deviations below 0.3% and 0.55%. [ABSTRACT FROM AUTHOR]