Low-pressure EGR valve having a condensate line

The invention claimed is: 1. A low-pressure exhaust gas recirculation (EGR) valve comprising: a housing having: a first side configured to be coupled with a fresh air inlet; a second side configured to be coupled with an outlet; an exhaust-gas inlet defined at a bottom of the housing; one or more inner surfaces defining at least one path to direct a condensate, when present at any point on a bottom surface of an inside of the housing, to a low point within the housing directed by gravity, wherein the at least one path drops monotonically; a condensate drain arranged at the bottom of the housing adjacent to the exhaust-gas inlet and closer to the first side than the second side, and where the condensate drain directs the condensate to a condensate collection container arranged outside of the housing, and the condensate collection container having an exit connectable to an exhaust-gas path and designed to discharge, to the exhaust-gas path, a quantity of condensate located in the condensate collection container to a portion of the exhaust-gas path upstream of the exhaust-gas inlet; the outlet configured to be fluidically coupled with a turbo compressor; and instructions stored in non-transitory memory for controlling opening of the exit responsive to predetermined conditions, including selectively releasing condensate to the portion of the exhaust-gas path upstream of the exhaust-gas inlet when it is not determined to raise an exhaust-gas temperature, and not release condensate when it is determined to raise the exhaust-gas temperature. 2. The low-pressure EGR valve of claim 1 , wherein the exhaust-gas inlet is arranged at a lowest point of the bottom surface. 3. The low-pressure EGR valve of claim 1 , in which the housing includes a wall shaped such that from any point on the wall there is at least one path along the wall running monotonically down to a given point on a rim of the bottom surface. 4. The low-pressure EGR valve of claim 1 , in which the housing includes a ceiling which is shaped such that from any point on the ceiling there is at least one path along the ceiling running monotonically down to a given point on a rim of a wall. 5. The low-pressure EGR valve of claim 1 , wherein a wall between the outlet and the condensate drain and/or between the fresh air inlet and the condensate drain has a curved profile that drops monotonically to the condensate drain. 6. The low-pressure EGR valve of claim 1 , wherein the raising of the exhaust-gas temperature is determined for heating up of a substrate to its light-off temperature, or a regeneration of a particle filter or of a lean NOx trap. 7. The low-pressure EGR valve of claim 6 , wherein the exit of the condensate collection container has a reed valve which is designed to open the exit when a pressure difference between an internal pressure in the condensate collection container and an external pressure downstream of the exit exceeds a first predetermined value, and to discharge the quantity of condensate into the exhaust-gas path, and to re-close the exit when the pressure difference between the internal pressure and the external pressure falls below a second predetermined value. 8. The low-pressure EGR valve of claim 7 , wherein the first predetermined value corresponds to a predetermined maximum fill level of the condensate collection container. 9. The low-pressure EGR valve of claim 7 , wherein the reed valve has a closure flap and a spring element connected to the closure flap, wherein the spring element is designed to exert a return force on the closure flap. 10. The low-pressure EGR valve of claim 1 , further comprising at least one throttle device for influencing a quantity of fresh air flowing in through the fresh air inlet and a quantity of exhaust gas flowing in through the exhaust-gas inlet. 11. The low-pressure EGR valve of claim 10 , wherein the throttle device is designed to close the exhaust-gas inlet when in a closed position, and in which the throttle device has a shield that is designed, in the closed position, to at least partially shield a surrounding region, arranged around the exhaust-gas inlet, from a gas stream from the fresh air inlet to the outlet. 12. The low-pressure EGR valve of claim 11 , wherein the shield is a throttle flap which is furthermore designed to influence the quantity of fresh air flowing in through the fresh air inlet. 13. A low-pressure exhaust gas recirculation (EGR) valve comprising: a fresh air inlet at a first side of the EGR valve; an outlet at a second side of the EGR valve, opposite the first side of the EGR valve; an exhaust gas inlet at a bottom of the EGR valve, between the first and second sides of the EGR valve, leading from an EGR line; a drain at the bottom of the EGR valve adjacent to the exhaust gas inlet and closer to the first side of the EGR valve than the second side of the EGR valve, wherein the drain is fluidly coupled to a condensate collection container configured to release condensate to a portion of an exhaust-gas path upstream of the exhaust gas inlet; and a valve housing defining an internal wall, a ceiling, and a bottom surface, at least one path to the exhaust gas inlet from any point on one or more of the wall, the ceiling, and the bottom surface running monotonically down to the EGR line; and instructions stored in non-transitory memory for controlling opening of an exit of the condensate collection container responsive to predetermined conditions, including selectively releasing condensate to the portion of the exhaust-gas path upstream of the exhaust-gas inlet when it is not determined to regenerate a particulate filter or a lean NOx trap. 14. The low-pressure EGR valve of claim 13 , wherein the at least one path is via a rim of the exhaust gas inlet. 15. A motor vehicle comprising: a low-pressure EGR valve having: a fresh air inlet coupled to the EGR valve at a first side, an outlet coupled to the EGR valve at a second side, and an exhaust gas inlet defined at a bottom of the EGR valve for fluidically coupling with an EGR passage; a drain at the bottom of the EGR valve adjacent to the exhaust gas inlet and biased to the first side, further comprising a depression extending from the drain completely around the exhaust gas inlet, wherein the drain is fluidly coupled to a condensate collection container configured to release condensate to a portion of an exhaust-gas path upstream of the exhaust gas inlet outside of a regeneration of a particulate filter or a regeneration of a lean NO x trap; and a throttle mechanism located inside the EGR valve and configured to control relative amounts of: inflow of fresh air via the exhaust gas inlet into a housing cavity in the EGR valve, and inflow of exhaust via the exhaust gas inlet into the housing cavity; and surfaces defining the housing cavity such that from any point on a bottom surface of the housing cavity there is at least one path running monotonically downward and into the EGR passage; and instructions stored in non-transitory memory for controlling opening of an exit of the condensate collection container responsive to predetermined conditions, including selectively releasing condensate to the portion of the exhaust-gas path upstream of the exhaust gas inlet when it is not determined to raise an exhaust-gas temperature, and not releasing condensate when it is determined to raise the exhaust-gas temperature. 16. The motor vehicle of claim 15 , further comprising a reed valve arranged between the condensate collection container and the exit, the exit fluidly coupled to the portion of the exhaust-gas