Patent ID: 7465430

Claim:
A tubular flow reactor for synthesis of a metal oxide nanopowder from a metal reactant and an oxidizing agent, comprising: (a) a first portion of the tubular flow reactor defining a high temperature zone, a second portion of the tubular flow reactor defining an intermediate zone and a third portion of the tubular flow reactor defining a reaction zone, the intermediate zone located between the high temperature zone and the reaction zone, the second portion of the reactor defining the intermediate zone being substantially funnel-shaped and providing a reactant contacting region located adjacent to the reaction zone; (b) a conduit positioned substantially along the vertical axis of the flow reactor extending through the high temperature zone and terminating adjacent to the reactant contacting region, the conduit being able to direct a flow of the metal reactant into the reactant contacting region; (c) a sleeve formed about at least a portion of the conduit being able to direct a flow of the oxidizing agent through the high temperature zone to form a flow of hot oxidizing agent which passes into the reactant contacting region wherein the funnel-shape is able to direct the flow of the hot oxidizing agent towards the flow of the metal reactant to form a reaction stream which flows downstream into the reaction zone, whereby the hot oxidizing agent of the reaction stream is able to surround the flow of metal reactant sufficient to prevent the metal reactant from contacting the wall and forming scale on the wall; and (d) a jacket having a first segment formed about at least a portion of the intermediate zone and a second segment formed about at least a portion of the reaction zone, the jacket having a baffle which extends inwardly from the second segment, the baffle being that portion of the tubular reactor which defines at least a portion of the reaction zone, the baffle having an interior surface and an exterior surface, the interior surface of the baffle running alongside the second segment of the jacket, the first segment of the jacket being spaced a distance from the portion of the tubular reactor which defines the intermediate zone and forming an upper cooling fluid conduit, the upper cooling fluid conduit being able to direct the flow of the upper cooling fluid into the reaction zone to flow coaxially with the reaction stream and to form a fluid curtain between the reaction stream and the baffle while the metal reactant and hot oxidizing agent within the reaction stream react to form the metal oxide nanopowder, the fluid curtain being able to prevent scale from forming on the baffle.