A Rankine cycle waste heat recovery system associated with an internal combustion engine is in a configuration that enables handling of exhaust gas recirculation (EGR) gas by using the energy recovered from a Rankine cycle waste heat recovery system. The system includes a control module for regulati
A Rankine cycle waste heat recovery system associated with an internal combustion engine is in a configuration that enables handling of exhaust gas recirculation (EGR) gas by using the energy recovered from a Rankine cycle waste heat recovery system. The system includes a control module for regulating various function of the internal combustion engine and its associated systems along with the Rankine cycle waste heat recovery system.
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1. An internal combustion engine, comprising: an intake system;an exhaust system operable to transport an exhaust gas and including an exhaust outlet;a turbocharger turbine positioned along the exhaust system;an aftertreatment system positioned along the exhaust system downstream from the turbocharg
1. An internal combustion engine, comprising: an intake system;an exhaust system operable to transport an exhaust gas and including an exhaust outlet;a turbocharger turbine positioned along the exhaust system;an aftertreatment system positioned along the exhaust system downstream from the turbocharger turbine;an exhaust gas recirculation (EGR) system connected to the exhaust system downstream of the aftertreatment system and operable to divert a portion of the exhaust gas from the exhaust system, said EGR system connected to the intake system of the internal combustion engine, said EGR system including an EGR pump positioned upstream of the intake system and adapted to selectively control a flow rate of EGR gas into the intake system; anda Rankine cycle waste heat recovery system including a waste heat recovery circuit, a working fluid pump positioned along the waste heat recovery circuit, an EGR heat exchanger positioned along the waste heat recovery circuit downstream from the working fluid pump and adapted to receive EGR gas, an exhaust gas boiler positioned along the waste heat recovery circuit downstream from the EGR heat exchanger and adapted to receive exhaust gas, an energy conversion portion positioned along the waste heat recovery circuit downstream from the exhaust gas boiler, the energy conversion portion coupleable to each of the EGR pump and an engine output, the energy conversion portion operable to selectively drive the EGR pump via power from at least one of the energy conversion portion and the engine output, and a condenser positioned along the waste heat recovery circuit downstream from the energy conversion portion and upstream from the working fluid pump. 2. The internal combustion engine of claim 1, wherein the energy conversion portion includes a gear reduction. 3. The internal combustion engine of claim 1, further comprising a clutch operable to engage and disengage the EGR pump. 4. The internal combustion engine of claim 1, further including a turbocharger compressor driven by the turbocharger turbine, the turbocharger compressor being operable to pump an intake gas into the intake system. 5. The internal combustion engine of claim 1, further including an EGR reservoir positioned along the EGR system between the EGR pump and the intake system. 6. The internal combustion engine of claim 5, further including a regulator valve positioned between the EGR system and the EGR reservoir. 7. The internal combustion engine of claim 6, where the regulator valve further includes a first position where the EGR gas is directed to the intake system, a second position where the EGR gas is directed to the EGR reservoir, and a third position where the EGR gas is directed to both the EGR reservoir and the intake system. 8. The internal combustion engine of claim 6, wherein the regulator valve is a proportional valve. 9. The internal combustion engine of claim 1, further including an EGR flow valve positioned along the EGR system between the EGR pump and the intake system. 10. An internal combustion engine, comprising: an intake system;an exhaust system operable to transport an exhaust gas and including an exhaust outlet; a turbocharger turbine positioned along the exhaust system;an aftertreatment system positioned along the exhaust system downstream from the turbine;an exhaust gas recirculation (EGR) system connected to the exhaust system downstream of the aftertreatment system and operable to divert a portion of the exhaust gas from the exhaust system, the EGR system connected to the intake system of the internal combustion engine, the EGR system including an EGR pump positioned upstream of the intake system and adapted to selectively control a flow rate of EGR gas into the intake system;a Rankine cycle waste heat recovery system including a waste heat recovery circuit, a working fluid pump positioned along the waste heat recovery circuit, an EGR heat exchanger positioned along the waste heat recovery circuit downstream from the working fluid pump and adapted to receive EGR gas, an exhaust gas boiler positioned along the waste heat recovery circuit downstream from the EGR heat exchanger and adapted to receive exhaust gas, an energy conversion portion positioned along the waste heat recovery circuit downstream from the exhaust gas boiler, the energy conversion portion coupleable to each of the EGR pump and an engine output, the energy conversion portion having an output operable to selectively drive the EGR pump via power from at least one of the energy conversion portion and the engine output, and a condenser positioned along the waste heat recovery circuit downstream from energy conversion portion and upstream from the working fluid pump; and a control system operable to control the output of the energy conversion portion. 11. The internal combustion engine of claim 10, further including a sensor positioned along the EGR system between the EGR pump and the intake system, the sensor configured to send a pressure signal to the control system, and the control system configured to send a signal to the energy conversion portion to adjust the output of the energy conversion portion by operating a clutch associated with the EGR pump based on the pressure signal. 12. The internal combustion engine of claim 10, the energy conversion portion having a first power outlet and a second power outlet, and the control system configured to receive a signal from the internal combustion engine and based on the signal selectively engage the first power outlet and the second power outlet. 13. The internal combustion engine of claim 10, further including an EGR reservoir positioned along the EGR system between the EGR pump and the intake system. 14. The internal combustion engine of claim 13, further including a regulator valve positioned between the EGR system and the EGR reservoir. 15. The internal combustion engine of claim 14, wherein the internal combustion engine generates a signal indicative of the operational condition of the engine and transmits the signal to the control module, the control module determines from the signal that additional EGR gas is required in the intake system and the control module sends a control signal to the regulator valve to connect the EGR reservoir to the intake system. 16. The internal combustion engine of claim 14, wherein the internal combustion engine generates a signal indicative of the operational condition of the engine and transmits the signal to the control module, the control module determines from the signal that less EGR flow is required in the intake system and the control module sends a control signal to the regulator valve to divert at least some EGR flow to the EGR reservoir. 17. The internal combustion engine of claim 14, wherein the regulator valve has a first position where the EGR gas is directed to the intake system, a second position where the EGR gas is directed to the EGR reservoir, and a third position where the EGR gas is directed to both the EGR reservoir and the intake system, and the control system moves the regulator valve to each position. 18. The internal combustion engine of claim 14, wherein the regulator valve is a proportional valve. 19. The internal combustion engine of claim 10, further comprising an EGR flow valve positioned between the EGR pump and the intake system and configured to receive a control signal from the control system to open, partially open, or close depending on a signal the control system receives from the internal combustion engine.
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