Fuel cell system

What is claimed is: 1. A fuel cell system, comprising: a fuel cell configured to generate power using a fuel gas and an oxygen-containing gas; a reformer including a vaporizing section and a reforming section, the vaporizing section being configured to vaporize reformed water into steam, the reforming section being configured to cause the steam to react with a raw fuel to generate the fuel gas through a steam reforming reaction; a raw fuel supply configured to supply the raw fuel to the reforming section; a reformed water supply configured to supply the reformed water to the vaporizing section; a controller having a plurality of calculation formulas for calculating an amount of reformed water to be used in the reforming section in response to a requested power level from an external unit, the plurality of calculation formulas including a formula to be selected in response to an increase in a requested current level from the external unit and a formula to be selected in response to a decrease in the requested current level from the external unit, the formula to be selected in response to the increase being different from the formula to be selected in response to the decrease; and a raw fuel flow rate measurer configured to measure a flow rate of the raw fuel supplied to the reforming section, wherein in response to a decrease in the requested power level from the external unit, the controller selects, from the plurality of calculation formulas, a first reformed water flow rate calculation formula to calculate an amount of reformed water per unit time to be used in the reforming section based on the flow rate of the raw fuel measured by the raw fuel flow rate measurer, and the controller reduces the amount of reformed water supplied to the reformer after a delay from a timing at which a target generation current level decreases. 2. The fuel cell system according to claim 1 , wherein in response to an increase in the requested power level from the external unit, the controller selects, from the plurality of calculation formulas, a second reformed water flow rate calculation formula to calculate an amount of reformed water per unit time to be used in the reforming section based on a flow rate of the raw fuel predetermined in accordance with a generation power level. 3. A fuel cell system, comprising: a fuel cell configured to generate power using a fuel gas and an oxygen-containing gas; a reformer including a vaporizing section and a reforming section, the vaporizing section being configured to vaporize reformed water into steam, the reforming section being configured to cause the steam to react with a raw fuel to generate the fuel gas through a steam reforming reaction; a raw fuel supply configured to supply the raw fuel to the reforming section; a reformed water supply configured to supply the reformed water to the vaporizing section; and a controller having a calculation formula for calculating an amount of reformed water to be used in the reforming section in response to a requested power level from an external unit, wherein when the calculation formula has a plurality of elements, the controller selects, based on an increase or a decrease in the requested power level from the external unit, an element from the plurality of elements of the calculation formula in response to the increase in the requested power level, and an element different from the element to be selected for the increase from the plurality of elements in response to the decrease in the requested power level, the controller selects, as the element of the calculation formula selected for the decrease, a measured flow rate of the raw fuel supplied to the reforming section in response to a decrease in the requested power level, and the controller reduces the amount of reformed water supplied to the reformer after a delay from a timing at which a target generation current level decreases. 4. The fuel cell system according to claim 3 , wherein the controller selects, as the element of the calculation formula selected for the increase, a flow rate of the raw fuel predetermined in accordance with a value of the requested power level in response to an increase in the requested power level.