Apparatus and method for detecting leakage in hydrogen tank of hydrogen fuel cell vehicle

What is claimed is: 1. An apparatus for detecting leakage in a hydrogen tank of a hydrogen fuel cell vehicle which performs a wakeup function to inject hydrogen gas from a hydrogen fuel supply line to a fuel cell stack using a pressure difference when a vehicle stops, the apparatus comprising: a solenoid valve coupled to an inlet of the hydrogen tank that stores hydrogen gas to airtightly open and close the inlet; a pressure sensor mounted at a front end of the solenoid valve to detect a pressure value which represents a hydrogen tank pressure; and a vehicle controller configured to determine a leakage generation in the hydrogen tank due to failure of the solenoid valve based on a pressure sensing value of the pressure sensor detected before performing the wakeup function and a pressure sensing value of the pressure sensor detected after performing the wakeup function, wherein a degree of leakage includes an excessive leakage, a minimal leakage, and no leakage. 2. The apparatus of claim 1 , wherein the minimal leakage in the hydrogen tank refers to a leakage state in which an internal leakage of the hydrogen tank due to the failure of the solenoid valve is less than the excessive leakage. 3. The apparatus of claim 1 , wherein the minimal leakage in the hydrogen tank refers to a leakage state in which the internal leakage of the hydrogen tank due to the failure of the solenoid valve is less than the excessive leakage. 4. The apparatus of claim 1 , wherein the vehicle controller is configured to compare a pressure sensing value Pb1 of the pressure sensor detected after performing a primary wakeup and a pressure sensing value Pa2 of the pressure sensor before performing a secondary wakeup and when the pressure sensing value Pb1 of the pressure sensor detected after performing the primary wakeup is less than pressure sensing value Pa2 of the pressure sensor detected before performing the secondary wakeup, determine the minimal leakage generation in the hydrogen tank. 5. The apparatus of claim 1 , wherein the vehicle controller is configured to compare a pressure sensing value P0 confirmed and stored at a time of key-off of the vehicle and a pressure sensing value Pa2 of the pressure sensor detected before performing a secondary wakeup and when the pressure sensing values P0 and Pa2 are equal to each other, determine the minimal leakage generation in the hydrogen tank. 6. The apparatus of claim 1 , wherein the vehicle controller is configured to compare a pressure sensing value P0 confirmed and stored at a time of key-off of the vehicle and a pressure sensing value Pb2 of the pressure sensor detected after performing a secondary wakeup and when the pressure sensing values P0 and Pb2 are equal to each other, determine the excessive leakage generation in the hydrogen tank. 7. The apparatus of claim 1 , wherein the solenoid valve is a normal close type solenoid valve.