Fuel reforming device

What is claimed is: 1 . A fuel reforming device for reforming a fuel composed mainly of a hydrocarbon using air to produce an alcohol, the device comprising: a reformer including a reforming catalyst for facilitating production of the alcohol that is produced by reforming the fuel composed mainly of the hydrocarbon using the air; a mixer disposed upstream of the reformer, the mixer mixing the fuel and the air and supplying the fuel and the air mixed together to the reformer; and a condenser disposed downstream of the reformer, the condenser separating a gas produced in the reformer into a gas phase and a condensed phase composed mainly of the reformed fuel; wherein the condenser includes a first casing that extends from a bottom portion of the condenser to an upper portion thereof and serves as an outer shell of a main body of the condenser, a second casing disposed within the first casing so as to extend from the bottom portion of the condenser to the upper portion thereof with a prescribed space formed between an inner surface of the first casing and an outer surface of the second casing, a fluid mixture flow portion formed in the space between the first casing and the second casing, the fluid mixture flow portion allowing a gas-liquid fluid mixture to pass therethrough, and a gas-liquid separator disposed in an upper portion of the second casing. 2 . The fuel reforming device according to claim 1 , wherein the condenser further includes a lid that is disposed on the gas-liquid separator so as to cover an upper opening thereof, the lid including a discharge port for a gas phase material resulting from gas-liquid separation. 3 . The fuel reforming device according to claim 1 , wherein the gas-liquid separator of the condenser includes: a fluid mixture inlet that allows the gas-liquid fluid mixture from the fluid mixture flow portion to flow into the gas-liquid separator; and a liquid collector for collecting a liquid phase material resulting from gas-liquid separation of the gas-liquid fluid mixture flowing into the gas-liquid separator through the fluid mixture inlet and then allowing the collected liquid phase material to flow downward toward a bottom portion of the second casing by gravity. 4 . The fuel reforming device according to claim 1 , wherein the first casing of the condenser has, on an outer surface of the first casing, a heat radiation portion. 5 . The fuel reforming device according to claim 1 , wherein the first casing of the condenser has, in a bottom of the first casing, a fluid mixture introduction port in communication with the fluid mixture flow portion. 6 . The fuel reforming device according to claim 3 , wherein the second casing of the condenser has, in an upper portion of the second casing, a fluid mixture outlet corresponding to the fluid mixture inlet of the gas-liquid separator. 7 . The fuel reforming device according to claim 1 , wherein a bottom portion of the second casing of the condenser forms a reformed fuel tank for storing the reformed fuel, and the reformed fuel tank has, in a bottom thereof, a reformed fuel discharge port for discharging the reformed fuel to the outside of the condenser, the reformed fuel discharge port being disposed so as to pierce a bottom of the first casing. 8 . The fuel reforming device according to claim 4 , wherein the first casing is formed such that the heat radiation portion is partially in contact with the second casing. 9 . The fuel reforming device according to claim 2 , wherein the condenser is configured such that the first casing, the second casing, the gas-liquid separator, and the lid are separable from each other. 10 . A fuel reforming device comprising: a reformer including a reforming catalyst to reform, using air, a fuel including a hydrocarbon to produce an alcohol; a mixer disposed upstream of the reformer to mix the fuel and the air, mixture of the fuel and the air being supplied to the reformer; and a condenser disposed downstream of the reformer to separate a gas produced in the reformer into a gas phase and a condensed phase including a reformed fuel, the condenser comprising: a first casing extending from a bottom portion side of the condenser to an upper portion side of the condenser opposite to the bottom portion side to serve as an outer shell of a main body of the condenser; a second casing disposed inside the first casing and extending from the bottom portion side to the upper portion side so that a prescribed space is provided between an inner surface of the first casing and an outer surface of the second casing; a fluid mixture flow portion provided in the prescribed space so that a gas-liquid fluid mixture passes through the fluid mixture flow portion; and a gas-liquid separator disposed in the second casing on the upper portion side of the condenser. 11 . The fuel reforming device according to claim 10 , wherein the condenser further includes a lid that is disposed on the gas-liquid separator so as to cover an upper opening of the gas-liquid separator opening toward the upper portion side of the condenser, the lid including a discharge port for a gas phase material resulting from gas-liquid separation. 12 . The fuel reforming device according to claim 10 , wherein the gas-liquid separator of the condenser includes: a fluid mixture inlet through which the gas-liquid fluid mixture from the fluid mixture flow portion is to flow into the gas-liquid separator; and a liquid collector to collect a liquid phase material resulting from gas-liquid separation of the gas-liquid fluid mixture flowing into the gas-liquid separator through the fluid mixture inlet so that the liquid phase material flows downward toward a bottom portion of the second casing by gravity. 13 . The fuel reforming device according to claim 10 , wherein the first casing of the condenser has, on an outer surface of the first casing, a heat radiation portion. 14 . The fuel reforming device according to claim 10 , wherein the first casing of the condenser has, in a bottom of the first casing, a fluid mixture introduction port in communication with the fluid mixture flow portion. 15 . The fuel reforming device according to claim 12 , wherein the second casing of the condenser has, in an upper portion of the second casing, a fluid mixture outlet corresponding to the fluid mixture inlet of the gas-liquid separator. 16 . The fuel reforming device according to claim 10 , wherein a bottom portion of the second casing of the condenser provides a reformed fuel tank to store the reformed fuel, and the reformed fuel tank has, in a bottom of the reformed fuel tank, a reformed fuel discharge port to discharge the reformed fuel to outside of the condenser, the reformed fuel discharge port being disposed so as to pierce a bottom portion of the first casing. 17 . The fuel reforming device according to claim 13 , wherein the first casing is provided such that the heat radiation portion is partially in contact with the second casing. 18 . The fuel reforming device according to claim 11 , wherein the condenser is configured such that the first casing, the second casing, the gas-liquid separator, and the lid are separable from each other. 19 . The fuel reforming device according to claim 10 , wherein a width of the prescribed space is 1 mm or less. 20 . The fuel reforming device according to claim 13 , wherein the heat radiation portion comprises protruding ridges provided on a circumferential surface of the first casing so as to e