Exhaust gas after-treatment apparatus having improved durability and exhaust gas after-treatment method

What is claimed is: 1. An exhaust gas after-treatment apparatus having improved durability, comprising: an exhaust gas oxidation catalyst part which oxidizes exhaust gas; an exhaust gas filtering part which is connected to the exhaust gas oxidation catalyst part, and filters the exhaust gas; a selective catalyst reducing part which is connected to the exhaust gas filtering part; and an ammonia oxidation catalyst part which is connected to the selective catalyst reducing part, wherein a first gas detection sensor for detecting a generated amount of nitrogen compound in the exhaust gas flowing from the exhaust gas filtering part, and a selective catalyst reducing bypass valve for selectively blocking the exhaust gas from flowing into the selective catalyst reducing part are installed at a front side of the selective catalyst reducing part, and the exhaust gas after-treatment apparatus includes a control part which is electrically connected so as to control whether to operate the selective catalyst reducing bypass valve and the selective catalyst reducing part on the basis of a gas amount detection signal; and wherein a second gas detection sensor for detecting nitrogen compound gas, and an ammonia oxidation catalyst bypass valve for selectively blocking the exhaust gas from flowing into the ammonia oxidation catalyst part are further electrically connected and installed to the control part at a front side of the ammonia oxidation catalyst part. 2. An exhaust gas after-treatment method comprising: detecting, by a first gas detection sensor, a nitrogen compound from exhaust gas passing through an exhaust gas oxidation catalyst part and an exhaust gas filtering part; determining, by a control part, to open and close a selective catalyst reducing bypass valve with respect to a selective catalyst reducing part on the basis of a detection signal; detecting, by a second gas detection sensor, nitrogen compound gas passing through the selective catalyst reducing bypass valve; and determining to open and close an ammonia oxidation catalyst bypass valve with respect to an ammonia oxidation catalyst part depending on a calculation of a rate of change of the nitrogen compound of the control part on the basis of the detection signal.