Abstract: A material-transition structural component for a ship hull, comprising a metal element and a fiber-reinforced polymer-matrix composite element, which are adhesively bonded, wherein the composite element is being produced during composite material processing simultaneously providing a metal-composite consolidation, for producing hulls for ships, a ship hull containing the same, as well as to a method of manufacturing of the material and the ship hull.

Abstract: A structural component for a ship hull has a metal element, an electro-conductive element, and a non-conductive element which disconnects the metal element from the electro-conductive element so as to prevent an electrical contact of the electro-conductive element with the metal element.

Abstract: An emission treatment system for removing oxides of nitrogen (NOx), from flue gases includes in the pretreatment portion a continuous plasma reactor receiving and modifying the gaseous effluent by applying a plasma discharge thereto. The plasma discharge, upon application to the gaseous effluent, decomposes the majority of the gaseous effluent to nitrogen and oxygen and oxidizes nitric oxide to nitrogen dioxide. A preconditioning section is also provided for further modifying the gaseous effluent by washing the same with a mildly alkaline solution for removing ozone and lowering the process temperature. A continuous chemical scrubber uses an absorbent medium to substantially eliminate the nitrogen dioxide from the effluent and releases nitrogen and oxygen to the atmosphere.

Abstract: A scanning antenna with ferrite control comprising a waveguide consisting of top and bottom ferrite layers and an intermediate layer. An array of radiating dipoles situated at the upper surface of the top ferrite layer. A horn structure containing first and second horn elements extending longitudinally along both sides of the array of radiating dipoles. Each horn element has an engaging part, a spacing part, and an inner wall. The spacing parts extending along and spaced from the top ferrite layer forming respective gaps therebetween. Dielectric spacers are provided at both sides of the array of dipoles and placed within the respective gaps. Each horn element is formed with at least one groove extending inwardly from the respective spacing part and longitudinally along the axis of the waveguide. The longitudinal grooves and the dielectric spaces restrict excitement of the parasitic modes in the waveguide and reduce power losses in the antenna.