Control of engine exhaust backpressure following engine cold-start

The invention claimed is: 1. A method of controlling a rate of warm-up of an internal combustion engine having a variable geometry turbocharger (VGT) including a compressor and a turbine with adjustable vanes fluidly connected to an exhaust system, the method comprising: identifying, via a controller, a cold-start of the engine; regulating, via the controller, in response to the identified cold-start of the engine, an exhaust pressure modulation (EPM) valve arranged in a main exhaust passage of the exhaust system, wherein the main exhaust passage channels engine exhaust gas to the ambient, to restrict a flow of the engine exhaust gas to the ambient and increase exhaust gas backpressure in the main exhaust passage up to a predetermined pressure value to thereby increase a load on and the rate of warm-up of the engine; regulating, via the controller, a low pressure exhaust gas recirculation (LPEGR) valve to selectively control flow of the engine exhaust gas through an LPEGR passage following said regulating the EPM valve in response to the identified cold-start of the engine, wherein the LPEGR passage fluidly connects the main exhaust passage to the engine, and the LPEGR valve is arranged in the LPEGR passage; determining ambient temperature via a sensor; and maintaining the LPEGR valve in a fully-closed state, via the controller, to minimize condensation of moisture in the exhaust gas at the turbine of the VGT when the ambient temperature has been determined to be below −10 degrees Celsius. 2. The method of claim 1 , wherein said regulating the LPEGR valve to selectively control the flow of the engine exhaust gas through the LPEGR passage includes directing up to 30% of an entire flow of the exhaust gas from the main exhaust passage through the LPEGR passage. 3. The method of claim 1 , wherein the engine is a compression-ignition engine and the exhaust system additionally includes an exhaust after-treatment device upstream of the EPM valve, the method further comprising: increasing the exhaust backpressure in the main exhaust passage for a first predetermined duration to thereby trigger a light-off of the exhaust after-treatment device via regulating the EPM valve. 4. The method of claim 3 , wherein the exhaust after-treatment device is a Diesel Particulate Filter (DPF). 5. The method of claim 3 , wherein an engine coolant is used to remove heat energy from the engine, and wherein said identifying the cold-start of the engine is accomplished by detecting a temperature of the engine coolant via a coolant sensor arranged on the engine and in electronic communication with the controller. 6. The method of claim 5 , wherein the engine is arranged in a vehicle having a passenger cabin and a heater configured to receive the engine coolant for regulating a temperature of air inside the cabin, the method further comprising: increasing the exhaust backpressure in the main exhaust passage for a second predetermined duration to thereby increase the temperature of air inside the cabin via regulating the EPM valve. 7. The method of claim 6 , further comprising: following an elapse of at least one of the first predetermined duration and the second predetermined duration, opening the EPM valve by the controller to derestrict the flow of the exhaust gas through the main exhaust passage and decrease the exhaust backpressure in the main passage below the predetermined pressure value. 8. A vehicle comprising: an internal combustion engine; a variable geometry turbocharger (VGT) having a turbine with adjustable vanes and a compressor; an exhaust system fluidly connected to the engine and having a main exhaust passage configured to channel engine exhaust gas to the ambient; an exhaust pressure modulation (EPM) valve arranged in the main exhaust passage and configured to vary an exhaust backpressure in the main exhaust passage; a sensor configured to detect ambient temperature; a low pressure exhaust gas recirculation (LPEGR) passage fluidly connecting the main exhaust passage to the engine; an LPEGR valve arranged in the LPEGR passage; and a controller including executable instructions stored in a non-transitory medium to: identify a cold-start of the engine; regulate, in response to the identified cold-start of the engine, the EPM valve to restrict a flow of the engine exhaust gas to the ambient and increase exhaust gas backpressure in the main exhaust passage up to a predetermined pressure value to thereby increase a load on and the rate of warm-up of the engine; regulate the LPEGR valve to selectively control flow of the engine exhaust gas through an LPEGR passage following the regulation of the EPM valve in response to the identified cold-start of the engine; regulate the LPEGR valve to direct the exhaust gas to the compressor of the VGT following regulation of the EPM valve in response to the identified cold-start of the engine; determine ambient temperature: and maintain the LPEGR valve in a fully-closed state to minimize condensation of moisture in the exhaust gas at the turbine of the VGT when the ambient temperature has been determined to be below −10 degrees Celsius. 9. The vehicle of claim 8 , wherein the controller includes additional executable instructions to regulate the LPEGR valve to direct up to 30% of an entire flow of the exhaust gas from the main exhaust passage through the LPEGR passage. 10. The vehicle of claim 8 , wherein the engine is a compression-ignition engine and the exhaust system additionally includes an exhaust after-treatment device upstream of the EPM valve, wherein the controller includes additional executable instructions to increase the exhaust backpressure in the main exhaust passage for a first predetermined duration to thereby trigger a light-off of the exhaust after-treatment device via regulating the EPM valve. 11. The vehicle of claim 10 , wherein the exhaust after-treatment device is a Diesel Particulate Filter (DPF). 12. The vehicle of claim 10 , further comprising a coolant sensor in electronic communication with the controller, wherein an engine coolant is used to remove heat energy from the engine, and wherein the controller includes additional executable instructions to identify the cold-start of the engine by detecting a temperature of the engine coolant via the coolant sensor. 13. The vehicle of claim 12 , wherein the engine is arranged in a vehicle having a passenger cabin and a heater configured to receive the engine coolant for regulating a temperature of air inside the cabin, and wherein the controller includes additional executable instructions to increase the exhaust backpressure in the main exhaust passage for a second predetermined duration to thereby increase the temperature of air inside the cabin via regulating the EPM valve. 14. The vehicle of claim 13 , wherein the controller includes additional executable instructions to open the EPM valve following an elapse of at least one of the first predetermined duration and the second predetermined duration, and thereby derestrict the flow of the exhaust gas through the main passage and decrease the exhaust backpressure in the main exhaust passage below the predetermined pressure value.