Patent ID: 7201889
Filing Date: 2007-04-10
Classification: B01D,B01J,C01B,Y02C,Y02P

Abstract:
1. A fuel reforming system for obtaining reformed hydrogen rich fuel from a carbon-containing fuel and steam, comprising: first to third reactors, each including a filling layer filled with a fuel reforming catalyst which promotes a fuel reforming reaction by which the carbon-containing fuel and steam react with each other to produce carbon dioxide and hydrogen, and a carbon dioxide absorbent capable of reversibly absorbing and discharging carbon dioxide, in each of which fuel reforming process is performed, the fuel reforming process comprising: a fuel reforming/carbon dioxide separation step of supplying the carbon-containing fuel and steam to a reactor filled with the filling layer, setting the carbon dioxide absorbent at an absorption temperature, thereby converting the carbon-containing fuel into reformed fuel, and separating carbon dioxide from the reformed fuel by allowing the carbon dioxide absorbent to absorb carbon dioxide, and using absorption heat generated when the carbon dioxide absorbent absorbs carbon dioxide in the reactor as the reaction heat of the fuel reforming reaction; an absorbent regeneration/heat storage step of obtaining a product gas by oxidizing at least one of a portion of the reformed fuel and the carbon-containing fuel with an oxidizer, and heating, with this product gas, the carbon dioxide absorbent which has absorbed carbon dioxide to a regeneration temperature, thereby regenerating the carbon dioxide absorbent and storing heat in this carbon dioxide absorbent; and a cooling/fuel reforming step of supplying the carbon-containing fuel and steam to the reactor in which the absorbent regeneration/heat storage step is completed, thereby cooling, to the absorption temperature, the carbon dioxide absorbent heated to the regeneration temperature, and converting the carbon-containing fuel into reformed fuel by heat energy stored in the carbon dioxide absorbent, wherein the steps are repeated in this order, and each of the steps is performed in one of the reactors in the same time period, a first thermometer provided in each of the first to third reactors, the first thermometer measuring temperature of the product gas in the absorbent regeneration/heat storage step; and a second thermometer provided in each of the first to third reactors, the second thermometer measuring temperature of the reformed fuel in the cooling/fuel reforming step, wherein: a completion time of the fuel reforming/carbon dioxide separation step is determined from elapsed time according to a breakthrough curve prepared in advance based on an average temperature of the filling layer and an amount of the carbon dioxide absorbent filled therein; a completion time of the absorbent regeneration/heat storage step is determined by detecting a boundary between the regeneration temperature at which the carbon dioxide absorbent can discharge carbon dioxide and the absorption temperature at which the carbon dioxide absorbent absorbs carbon dioxide, based on the temperature measured by the first thermometer; and a completion time of the cooling/fuel reforming step is set as a point in time when the temperature measured by the second thermometer reaches an absorption temperature level of the filling layer that is required in the fuel reforming/carbon dioxide separation step.