Lund University Publications

A STUDY OF AN USER AND ENVIRONMENTAL FRIENDLY STORED ENERGY BASED EPU/APU-SYSTEM FOR MILITARY AEROSPACE APPLICATIONS

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Abstract

Modern military multi-role combat aircrafts need an emergency power system (EPU) to maintain back-up power supply for all normal and degraded flight modes.

The reason for this requirement is that modern combat aircrafts are designed with built-in relaxed or negative stability. Inability of the Flight Control System to perform continuous, corrective control surface actuation, due to loss of power supply or other causes implies instantaneous departure with loss of A/C. An emergency system needs to have a quick response and provide high power, electrical or hydraulic or combined, to a low weight and volume for considered time

Different EPU systems have been tried over the years, hydrazine (monopropellant) driven turbines,... (More)

Modern military multi-role combat aircrafts need an emergency power system (EPU) to maintain back-up power supply for all normal and degraded flight modes.

The reason for this requirement is that modern combat aircrafts are designed with built-in relaxed or negative stability. Inability of the Flight Control System to perform continuous, corrective control surface actuation, due to loss of power supply or other causes implies instantaneous departure with loss of A/C. An emergency system needs to have a quick response and provide high power, electrical or hydraulic or combined, to a low weight and volume for considered time

Different EPU systems have been tried over the years, hydrazine (monopropellant) driven turbines, compressed air and all-electric battery systems are dominating in existing applications.

Gas generator systems however show advantages, but hydrazine for example is both toxic and carcenogenic.

The operation of coming electrical weapons demands short bursts of very high power. The requirement of power, from this emerging field of applications, is conveniently fulfilled by tailoring of the EPU/APU systems approach. A small stored energy based system can also be the power source solution for electrical weapons in medium UAV’s.



FMV has since 1999 performed a study of an EPU system based on stored energy together with a turbine solution. A novel gas generator system has been developed and demonstrated which is both a user and environmental friendly. The work-performing gas is generated from catalytically enabled and supported combustion of medium concentration hydrogen peroxide and methanol. The concept was evaluated by performing a feasibility study in three phases between 1999 and 2007. This paper will present the work performed and results from these three phases. The paper covers both the results from initial studies of different EPU system concepts/solutions and from the demonstrator programs of two turbine concepts where the second concept also incorporated a working novel hydrogen peroxide/methanol gas generator.

Specific focus will be given to this novel gas generator concept which operates with a mixture of medium concentration hydrogen peroxide and methanol. The hydrogen peroxide is catalytically decomposed into steam/water and free oxygen that are used to combust the added methanol by a combustion catalyst into a high temperature ( ~600 C) working gas. (Less)