Provided herein are methods for effectively loading reactor material into fixed bed reactors. The subject methods and systems for loading catalyst particles and inert particles onto a reactor bed utilize a novel sock having a helical-shape that can restrict reactor material traveling through the elevation of the fixed bed reactor to the reactor bed and avoid damaging the reactor material upon impact. The sock comprises a cylindrical tube having a plurality of helixes. Each helix of the cylindrical tube has a downward slope. The downward slope of each helix exceeds an angle of repose of the reactor material. The present methods and system are particularly effective for improving the performance of reactor bed configurations of vertically-oriented fixed bed reactors and flow distribution through the bed at designated operating conditions.

In accordance with one or more embodiments, a tubular catalyst-containing reactor system is provided. The system includes a housing and a vaporizer unit in the housing comprising a helically wound tubular assembly for receiving and at least partially vaporizing a liquid chemical reactant stream. A reformer unit in the housing receives a vaporized chemical reactant stream from the vaporizer unit. The reformer unit comprises a helically wound tubular assembly connected to and positioned coaxially relative to the helically wound tubular assembly of the vaporizer unit. The helically wound tubular assembly of the reformer unit contains a catalyst for catalyzing formation of gas product stream from the vaporized chemical reactant stream. A burner unit heats the vaporizer unit and the reformer unit. The burner unit receives a fuel stream and an air stream and produces a flame generally inside the helically wound tubular assemblies of the vaporizer unit and the reformer unit.

A hydrogen generation apparatus includes a case portion, a hydrogen carrier supply portion, a screw conveyor, a liquid supply portion, and a hydrogen collection portion. The hydrogen carrier supply portion supplies a solid hydrogen carrier to the case portion. The screw conveyor is disposed in the case portion, and includes a spiral blade for conveying the hydrogen carrier supplied from the hydrogen carrier supply portion. The liquid supply portion supplies a liquid containing water to the hydrogen carrier conveyed by the screw conveyor. The hydrogen collection portion collects hydrogen generated by a reaction between the hydrogen carrier and the liquid on the screw conveyor.