Compact exhaust gas treatment system and method of operating the same

The invention claimed is: 1. An exhaust gas treatment system for treating exhaust gas from an internal combustion engine, the exhaust gas treatment system comprising: a first flow path for the exhaust gas; a catalyst arranged within the first flow path, the catalyst being configured to treat the exhaust gas at a catalyst temperature above a predetermined temperature threshold; a second flow path coaxially arranged in heat exchange relation with respect to the first flow path, the second flow path not containing a catalyst; a reagent injection device arranged upstream of the catalyst, the reagent injection device being configured to, when the temperature of the catalyst exceeds the predetermined temperature threshold, inject a predetermined amount of a reagent upstream of the catalyst; and a control system being configured to, when the temperature of the catalyst is below the predetermined temperature threshold, direct the exhaust gas through the second flow path wherein the exhaust gas is not treated by a catalyst, thereby heating the catalyst in the first flow path and, when the temperature of the catalyst exceeds the predetermined temperature threshold, direct the exhaust gas through the first flow path to treat the exhaust gas in the catalyst. 2. The exhaust gas treatment system of claim 1 , wherein the first flow path is inwardly arranged with respect to the second flow path. 3. The exhaust gas treatment system of claim 2 , wherein the catalyst is at least one of an SCR catalyst, an oxidation catalyst, and a diesel particulate filter. 4. The exhaust gas treatment system of claim 2 , further comprising: a valve unit disposed upstream of the catalyst and being in communication with a control unit, wherein the control unit is configured to, when the temperature of the catalyst exceeds the predetermined threshold, control the valve unit to direct the exhaust gas through the first flow path, and, when the temperature of the catalyst is below the predetermined threshold, control the valve unit to direct the exhaust gas through the second flow path. 5. The exhaust gas treatment system of claim 1 , wherein the first flow path is outwardly arranged with respect to the second flow path. 6. The exhaust gas treatment system of claim 5 , wherein the catalyst is at least one of an SCR catalyst, an oxidation catalyst, and a diesel particulate filter. 7. The exhaust gas treatment system of claim 5 , further comprising: a valve unit disposed upstream of the catalyst and being in communication with a control unit, wherein the control unit is configured to, when the temperature of the catalyst exceeds the predetermined threshold, control the valve unit to direct the exhaust gas through the first flow path, and, when the temperature of the catalyst is below the predetermined threshold, control the valve unit to direct the exhaust gas through the second flow path. 8. The exhaust gas treatment system of claim 7 , wherein the valve unit may comprise one or more of a first valve (V 1 ) disposed within the first flow path, a second valve (V 2 ) disposed within the second flow path, and a three-way valve. 9. The exhaust gas treatment system of claim 1 , wherein the catalyst is at least one of an SCR catalyst, an oxidation catalyst, and a diesel particulate filter. 10. The exhaust gas treatment system of claim 1 , further comprising: a valve unit disposed upstream of the catalyst and being in communication with a control unit, wherein the control unit is configured to, when the temperature of the catalyst exceeds the predetermined threshold, control the valve unit to direct the exhaust gas through the first flow path, and, when the temperature of the catalyst is below the predetermined threshold, control the valve unit to direct the exhaust gas through the second flow path. 11. The exhaust gas treatment system of claim 10 , wherein the valve unit may comprise one or more of a first valve (V 1 ) disposed within the first flow path, a second valve (V 2 ) disposed within the second flow path, and a three-way valve. 12. The exhaust gas treatment system of claim 1 , further comprising a temperature sensor being configured to detect the temperature of the catalyst. 13. An internal combustion engine comprising: an engine block; a high-pressure turbocharger including a high-pressure turbine (T H ) disposed downstream of the engine block; a low pressure turbocharger including a low-pressure turbine (T L ) disposed downstream of the high-pressure turbine (T H ); and an exhaust gas treatment system configured to fluidly connect the high-pressure turbine (T H ) to the low pressure turbine (T L ), the exhaust gas treatment system comprising: a first flow path for the exhaust gas; a catalyst arranged within the first flow path, the catalyst being configured to treat the exhaust gas at a catalyst temperature above a predetermined temperature threshold; a second flow path coaxially arranged in heat exchange relation with respect to the first flow path, the second flow path not containing a catalyst; a reagent injection device arranged upstream of the catalyst, the reagent injection device being configured to, when the temperature of the catalyst exceeds the predetermined temperature threshold, inject a predetermined amount of a reagent upstream of the catalyst; and a control system being configured to, when the temperature of the catalyst is below the predetermined temperature threshold, direct the exhaust gas through the second flow path wherein the exhaust gas is not treated by a catalyst, thereby heating the catalyst in the first flow path and, when the temperature of the catalyst exceeds the predetermined temperature threshold, direct the exhaust gas through the first flow path to treat the exhaust gas in the catalyst. 14. A method for controlling exhaust gas through an exhaust gas treatment system associated with an internal combustion engine, the exhaust gas treatment system comprising a first flow path for the exhaust gas, a catalyst arranged within the first flow path and being configured to treat the exhaust gas at a catalyst temperature above a predetermined temperature threshold, and a second flow path coaxially arranged in heat exchange relation with respect to the first flow path, the second flow path not containing a catalyst, the method comprising: detecting a temperature of the catalyst; directing the exhaust gas through the first flow path, when the detected temperature of the catalyst exceeds the predetermined temperature threshold; directing the exhaust gas through the second flow path for heating the catalyst, wherein the exhaust gas is not treated by a catalyst, when the detected temperature of the catalyst is below the predetermined temperature threshold; and injecting a predetermined amount of a reagent into the first flow path upstream of the catalyst, when the detected temperature of the catalyst exceeds the predetermined temperature threshold. 15. The method of claim 14 , further comprising: when the detected temperature of the catalyst exceeds the predetermined temperature threshold, allowing the exhaust gas to flow through the first flow path and restricting the exhaust gas to flow through the second flow path; and when the detected temperature of the catalyst is below the predetermined temperature threshold, restricting the exhaust gas to flow through the first flow path and allowing the exhaust gas to flow through the second flow path. 16. The method claim 15 , further comprising: when the detected temperature of the catalyst exceeds the predetermined temperature threshold, restrict