Internal combustion engine system

1 . An internal combustion engine system comprising: an internal combustion engine provided with at least one cylinder; a turbocharger arrangement comprising a turbocharger turbine operatively connected to a turbocharger compressor-; an air intake system arranged to feed intake air via the turbocharger compressor- to the at least one cylinder; an exhaust gas system arranged to feed exhaust gas away from the at least one cylinder and to feed exhaust gas via the turbocharger turbine so as to drive the turbocharger compressor, an exhaust gas recirculation (EGR) conduit arranged between a point upstream the turbocharger turbine of the exhaust gas system and a point downstream the turbocharger compressor of the air intake system so as to allow recirculation of high pressure exhaust gas from the exhaust gas system to the air intake system; an EGR valve arranged in the EGR conduit so as to provide for regulation of a flow of the high pressure exhaust gas through the EGR conduit; and a turbomachine configured to provide for a forced flow of gas in the internal combustion engine system, characterized in that the turbomachine is arranged in the EGR conduit so as to allow for a forced flow of gas through the EGR conduit; that the EGR valve and the turbomachine are positioned in relation to each other in the EGR conduitsuch that a flow of high pressure exhaust gas through the EGR conduit towards the air intake system reaches the EGR valve before reaching the turbomachine; that an additional exhaust gas conduit is arranged between the EGR conduit and a point of the exhaust system downstream the turbocharger turbine so as to allow exhaust gas to flow between the EGR conduit and the point downstream the turbocharger turbine without passing through the turbocharger turbine, wherein the additional exhaust gas conduit is connected to the EGR conduit at a point between the EGR valve and the turbomachine so as to provide a communication between the turbomachine and the additional exhaust gas conduit even if the EGR valve is closed; and in that an additional exhaust valve is arranged in connection with the additional exhaust gas conduit so as to provide for regulation of a flow of gas through the additional exhaust gas conduit, wherein the internal combustion engine system is provided with an exhaust gas aftertreament system (EATS) arranged downstream the turbocharger turbine and downstream also the additional exhaust gas conduit. 2 . The internal combustion engine system according to claim 1 , wherein the system further comprises at least one main valve arranged to regulate a total flow of gas through the internal combustion engine system. 3 . The internal combustion engine system according to claim 2 , wherein the at least one main valve includes an intake throttle valve in the air intake system arranged downstream the turbocharger compressor, and/or wherein the at least one main valve includes a main exhaust valve arranged downstream the turbocharger turbine and downstream also the additional exhaust gas conduit. 4 . The internal combustion engine system according to claim 1 , wherein the EGR valve and the additional exhaust valve are separate valves arranged in or in connection with the EGR conduit and the additional exhaust gas conduit, respectively, or wherein the EGR valve and the additional exhaust valve form part of a common multiway valve arranged in connection with both the EGR conduit and the additional exhaust gas conduit. 5 . The internal combustion engine system according to claim 1 , wherein the air intake system is provided with a compressor recirculation conduit connected to a main air intake channel upstream and downstream the turbocharger compressor, wherein the compressor recirculation conduit is provided with a compressor recirculation valve for controlling a flow of air through the compressor recirculation conduit. 6 . The internal combustion engine system according to claim 3 , wherein the at least one main valve includes the main exhaust valve arranged downstream the turbocharger turbine and downstream also the additional exhaust gas conduit, and wherein the EATS is arranged downstream the main exhaust valve. 7 . The internal combustion engine system according to claim 1 , wherein the turbomachine is a positive displacement machine configured to displace gas from an inlet to an outlet thereof by trapping a fixed amount of gas and forcing that trapped amount of gas from the inlet to the outlet. 8 . The internal combustion engine system according to claim 7 , wherein the positive displacement machine is a rotary roots type blower having a pair of rotary members provided with meshing lobes. 9 . The internal combustion engine system according to claim 1 , wherein the internal combustion engine system further comprises a variable drive unit arranged to drive the turbomachine, and wherein the internal combustion engine system is configured to control the drive unit so as to control a flow of exhaust gas through the turbomachine. 10 . Method for operating an internal combustion engine system according to claim 1 , the method comprising; closing the EGR valve so as to prevent or at least significantly restrict a flow of recirculated high pressure exhaust gas through the EGR conduit; opening the additional exhaust valve so as to allow exhaust gas to flow through the additional exhaust gas conduit into the EGR conduit; and operating the turbomachine so as to force exhaust gas that has passed the turbocharger turbine to flow through the additional exhaust gas conduit and further through the EGR conduit to the air intake system. 11 . Method for operating an internal combustion engine system according to claim 10 , wherein the system comprises at least one main valve arranged to regulate a total flow of gas through the internal combustion engine system and wherein the method comprises the step of: partially or fully closing the at least one main valve so as to reduce the total flow of gas through the internal combustion engine system. 12 . Method for operating an internal combustion engine system according to claim 11 , wherein the step of partially or fully closing the at least one main valve comprises the step of: partially or fully closing an intake throttle valve arranged in the air intake system downstream the turbocharger compressor and/or partially or fully closing a main exhaust valve arranged downstream the turbocharger turbine and downstream also the additional exhaust gas conduit. 13 . Method for operating an internal combustion engine system according to claim 10 , wherein the steps of closing the EGR valve and opening the additional exhaust valve are carried out by: closing a separate EGR valve arranged in or in connection with the EGR conduit and opening a separate additional exhaust valve arranged in or in connection with the exhaust bypass conduit; or operating a multiway valve arranged in connection with both the EGR conduit and the additional exhaust gas conduit, wherein the multiway valve is configured to be operated both as the EGR valve as well as the additional exhaust valve. 14 . Method for operating an internal combustion engine system according to claim 10 , wherein the method comprises the steps of: determining a current torque of the internal combustion engine and determining whether the current torque is below a threshold level, or determining a current pedal position or other request for torque and determining whether the current pedal position or request for torque is below a threshold level, then, if the current torque or the pedal position/requested torque is below the