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SPS NATO

Science for Peace and Security (SPS) Programme Logo

IUFCV Project Logo with INTA CSIRO UNIV Sevilla

 


Objectives

The project "Improving efficiency and operational range in low-power unmanned vehicles through the use of hybrid fuel-cell power systems (IUFCV)" is a R&D project cofunded by the NATO Science for Peace and Security (SPS) Programme, which aims to demonstrate and evaluate the technical feasibility of hybrid power systems, based on batteries and fuel cells, in existing unmanned vehicles.

The proposed hybrid power systems are designed and developed according to the specifications of three existing unmanned platforms, one autonomous underwater vehicle (AUV), also called unmanned underwater vehicle (UUV), and two unmanned ground vehicles (UGVs). These power systems will be integrated and evaluated in real operating conditions. 


Summit XL UGV working in the facilities of The Energy Area of INTA


Crtiteria for success:

  • Specific energy of the fuel cell hybrid power systems > 180 Wh/kg (without O2 storage in the AUV)
  • Endurance of the fuel cell UGVs (in runtime-nominal usage) > 7 hours
  • Endurance of the fuel cell UUV > 10 hours
  • Recharging time < 5 minm (for hydrogen compressed gas)
  • Availability of the power system > 95%
  • Achievement of end user requirements
  • Application of existing RCS related to the safe use of hydrogen and fuel cells

 

 

Consortium / Partners and role

Official logo INTA, visit in new window

National Institute for Aerospace Technology (INTA), Energy Area

Development of hybrid power systems, using COTS components and prototypes. Integration in an UGV. Evaluation of unmanned vehicles.

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Commonwealth Scientific and Industrial Research Organization (CSIRO), Data61, Robotics and Autonomous Systems

Development of two autonomous vehicles (an AUV and an UGV) based on existing platforms. Integration of hybrid power systems. Evaluation of unmanned vehicles power systems. Evaluation of unmanned vehicles.

logo disa, visit website in new window

University of Seville, System Engineering and Automation Department

Development of advanced control algorithms and their implementation to optimize the operation of the hybrid power systems in robotic platforms.


More information:

 

"Improving efficiency and operational range in low-power unmanned vehicles through the use of hybrid fuel-cell power systems (IUFCV)"  Project web