In this paper, the authors want to highlight aspects related to the development, testing and use of an innovative technological product of the electric generator type with magneto, adapted for the production of heat and electricity. Its organology is based on a metal chassis to which is attached the heat engine and the generator with tensioner. The transmission of the rotational movement from the engine to the generator is done with the help of a V-belt. From a constructive point of view, the innovative aspect of the prototype is the adaptation of a moped-type electricity source, called here magneto, on a mobile generator structure that facilitates its independent and separate operation from the motors on which they are assembled. The heat engine has an installation attached to the section to exhaust the fumes resulting from the combustion of fuel. It accumulates heat that it releases into the outside environment. The tensioner allows the connection between the motor and the generator to be broken, allowing the motor to operate separately without generating electricity. The prototype has several constructive and functional advantages, such as: low mass, simple structure, energy efficiency and low operating noise.
This article brings to the attention of specialists few points related to an improvement of existing situation in the field of critical infrastructure security through the implementation of advanced technologies and employing a scientific research methodology based on project management. For ensuring the functionality of critical infrastructures, the characteristics of current security environment such as volatility, ambiguity and uncertainty, which determine the use of solutions characterized mainly by the operational agility, have been taken into account. The results of this approach can be useful both for the educational field and for the staff who occupy positions inside the critical infrastructure protection departments within organizations holding or managing such critical infrastructures.