Fuel injection amount control device

What is claimed is: 1. A fuel injection amount control device for an internal combustion engine, the internal combustion engine being configured to inject fuel into an intake port, the fuel including an alcohol, the fuel injection amount control device comprising: a fuel heater configured to heat the fuel based on a coolant temperature of the internal combustion engine; and an electronic control unit operatively coupled with the fuel heater and a fuel injection valve, the electronic control unit being configured to: determine and set an initial value of a correction amount of a fuel injection amount and a damping value of the fuel injection amount for the internal combustion engine, the initial value of the correction amount and the damping value being based on the coolant temperature and an alcohol concentration of the fuel during a startup of the internal combustion engine, such that: (i) the initial value of the correction amount decreases as the coolant temperature increases and the initial value of the correction amount increases as the alcohol concentration increases, and (ii) the damping value decreases as the coolant temperature increases and the damping value increases as the alcohol concentration increases, the initial value of the correction amount being set such that the initial value in a state where the fuel heater is in operation is smaller than the initial value in a state where the fuel heater is out of operation; adjust the correction amount of the fuel injection amount for the internal combustion engine based on the coolant temperature and the alcohol concentration of the fuel during a startup period of the internal combustion engine such that fluctuations in an air fuel ratio of the fuel adhering to a wall surface in the intake port are suppressed, the correction amount being adjusted during the startup period by starting at the initial value of the correction amount and decreasing the initial value by subtracting the damping value from the initial value of the correction amount after each of a plurality of intervals of time, such that after a first interval of the plurality of intervals of time, the adjusted correction amount is then set as the initial value of the correction amount of a second, subsequent, interval of the plurality of intervals of time; adjust the fuel injection amount during the startup of the internal combustion engine based on the adjusted correction amount; and transmit a signal to the fuel injection valve to inject the fuel into the intake port based on the adjusted fuel injection amount. 2. The fuel injection amount control device according to claim 1 , wherein the electronic control unit is configured to adjust the correction amount of the fuel injection amount such that the damping value of the fuel injection amount in the state where the fuel heater is in operation increases as an operation amount of the fuel heater increases, during the startup period of the internal combustion engine. 3. The fuel injection amount control device according to claim 2 , wherein the operation amount of the fuel heater is a control voltage to the fuel heater or a control current to the fuel heater. 4. The fuel injection amount control device according to claim 1 , wherein the electronic control unit is configured to adjust the correction amount of the fuel injection amount such that the damping value of the fuel injection amount in the state where the fuel heater is in operation decreases as an operation amount of the fuel heater decreases, during the startup period of the internal combustion engine. 5. The fuel injection amount control device according to claim 4 , wherein the operation amount of the fuel heater is a control voltage to the fuel heater or a control current to the fuel heater. 6. The fuel injection amount control device according to claim 1 , wherein the startup period is a period from a timing when a rotational speed of the internal combustion engine becomes equal to a predetermined rotational speed, to a timing when a cumulative rotational speed of the internal combustion engine becomes equal to a predetermined cumulative rotational speed.