Patent ID: 7981168

Claim:
A method for gasifying a concentrated sulfuric acid solution in concentrated sulfuric acid vaporizer equipped with a compact heat exchanger having corrosion resistance at high temperatures above 1000° C., the method comprising: supplying a concentrated sulfuric acid solution from a bottom of a vaporizer via a first feed channel; introducing a helium gas from a hot gas furnace laterally through an upper portion of the vaporizer via a second feed channel; wherein first and second feed channels are oriented perpendicular to one another in each one of ceramic blocks of the vaporizer; wherein the concentrated sulfuric acid solution and the helium gas undergo heat exchange until the concentrated sulfuric acid solution is completely gasified, and wherein the concentrated sulfuric acid vaporizer is associated with a Bunsen reaction for decomposing water into hydrogen and oxygen through a combination of a sulfuric acid decomposition and regeneration cycle with a hydrogen iodide decomposition and synthesis cycle, wherein thermal energy for the sulfuric acid cycle and the hydrogen iodide cycle is supplied by the hot gas furnace via the compact heat exchanger, wherein the compact heat exchanger comprises: ceramic blocks made from silicon carbide or silicone nitride having first feed channels between two opposing sides of each block, the first feed channels being held open so as to flow the concentrated sulfuric acid solution upward through the first feed channels; the ceramic blocks having second feed channels between two other opposing sides of each block, the second feed cannels being held open so as to flow hot helium gas laterally through the second feed channels of each block, so as to transfer heat from the second feed channels to the first feed channels so as to heat the sulfuric acid in each block, wherein the first and second feed channels do not communicate with one another; wherein ceramic pillars are fabricated by stacking a plurality of the ceramic blocks, the blocks being joined one on top of another with brazing sheets to form each pillar; wherein a heat exchanging section is formed by combining four ceramic pillars with section plates and partition plates to establish lateral helium passageways; wherein ceramic flow rate regulating plates are attached to a top and to a bottom of the heat exchanging section, respectively; wherein a pressure vessel accommodates the heat exchanging section; and wherein earthquake-resistant connectors are fitted between the pressure vessel and the heat exchanging section.