Multi-cylinder engine

What is claimed is: 1. A multi-cylinder engine having an engine body with a cylinder head, the engine comprising: a first cylinder group provided to the engine body and comprised of three cylinders disposed adjacent to each other; a first exhaust passage group having three independent exhaust passage parts provided to the cylinder head and connected to the first cylinder group, respectively, and a first collective exhaust passage part provided in the cylinder head and collecting the three independent exhaust passage parts at a location downstream in an exhaust gas flow direction, and having an opening formed in a side surface part of the cylinder head; a first exhaust-pipe part connected to the opening of the first collective exhaust passage part; an exhaust gas recirculation (EGR) passage connected at a first end to one of the independent exhaust passage parts of the first exhaust passage group and connected at a second end to an intake passage, a part of the EGR passage being formed in the cylinder head; a turbocharger; a second cylinder group provided to the engine body, comprised of three cylinders disposed adjacent to each other, and provided adjacently to the first cylinder group; a second exhaust passage group having three independent exhaust passage parts provided in the cylinder head and connected to the second cylinder group, respectively, and a second collective exhaust passage part provided in the cylinder head and collecting the three independent exhaust passage parts at a location downstream in the exhaust gas flow direction, and having an opening formed in the side surface part of the cylinder head; a second exhaust-pipe part connected to the opening of the second collective exhaust passage part; and an exhaust gas temperature sensor provided to the first exhaust-pipe part, wherein the turbocharger includes the first exhaust-pipe part and the second exhaust-pipe part, the turbocharger includes a collective exhaust-pipe part provided downstream in the exhaust gas flow direction from the first exhaust-pipe part and the second exhaust-pipe part, and the collective exhaust-pipe part is connected to a turbine of the turbocharger. 2. The multi-cylinder engine of claim 1 , wherein the first exhaust-pipe part has a first curved part where a pipe axis of the first exhaust-pipe part curves, and wherein the exhaust gas temperature sensor is provided to the first curved part. 3. The multi-cylinder engine of claim 2 , wherein the exhaust gas temperature sensor is disposed radially outward of the curve from the pipe axis of the first curved part. 4. The multi-cylinder engine of claim 2 , wherein the first exhaust-pipe part has a second curved part, provided upstream in the exhaust gas flow direction from the first curved part, where the pipe axis of the first exhaust-pipe part curves, and wherein the first curved part and the second curved part are connected to each other with a point of inflection of the pipe axes therebetween. 5. The multi-cylinder engine of claim 2 , wherein the second exhaust-pipe part is formed so that a pipe axis of the second exhaust-pipe part is more linear than the pipe axis of the first exhaust-pipe part. 6. The multi-cylinder engine of claim 1 , wherein fuel is injected alternately over time to the first cylinder group and the second cylinder group. 7. A multi-cylinder engine having an engine body with a cylinder head, the engine comprising: a first cylinder group provided to the engine body, and comprised of three cylinders disposed adjacent to each other; a first exhaust passage group having three independent exhaust passage parts provided in the cylinder head and connected to the first cylinder group, respectively, and a first collective exhaust passage part provided in the cylinder head and collecting the three independent exhaust passage parts at a location downstream in an exhaust gas flow direction, and having an opening formed in a side surface part of the cylinder head; a first exhaust-pipe part connected to the opening of the first collective exhaust passage part; an exhaust gas recirculation (EGR) passage connected at a first end to one of the independent exhaust passage parts of the first exhaust passage group and connected at a second end to an intake passage, a part of the EGR passage being formed in the cylinder head; a turbocharger; a second cylinder group provided to the engine body, comprised of three cylinders disposed adjacent to each other, and provided adjacently to the first cylinder group; a second exhaust passage group having three independent exhaust passage parts provided in the cylinder head and connected to the second cylinder group, respectively, and a second collective exhaust passage part provided in the cylinder head and collecting the three independent exhaust passage parts at a location downstream in the exhaust gas flow direction, and having an opening formed in the side surface part of the cylinder head, wherein in a plan view of the second exhaust passage group in cylinder axis directions, the opening of the second collective exhaust passage part is offset toward the first exhaust passage group in a lineup direction of the three independent exhaust passage parts, and wherein in a plan view of the first exhaust passage group in the cylinder axis directions, the opening of the first collective exhaust passage part is disposed closer to a center in the lineup direction of the three independent exhaust passage parts, compared with the opening of the second collective exhaust passage part; a second exhaust-pipe part connected to the opening of the second collective exhaust passage part; and an exhaust gas temperature sensor provided to the first exhaust-pipe part, wherein the turbocharger includes the first exhaust-pipe part and the second exhaust-pipe part, the turbocharger includes a collective exhaust-pipe part provided downstream in the exhaust gas flow direction from the first exhaust-pipe part and the second exhaust-pipe part, and the collective exhaust-pipe part is connected to a turbine of the turbocharger. 8. The multi-cylinder engine of claim 7 , wherein the first exhaust-pipe part has a first curved part where a pipe axis of the first exhaust-pipe part curves, and wherein the exhaust gas temperature sensor is provided to the first curved part. 9. The multi-cylinder engine of claim 8 , wherein the second exhaust-pipe part is formed so that a pipe axis of the second exhaust-pipe part is more linear than the pipe axis of the first exhaust-pipe part.