Arrangement for converting thermal energy from lost heat of an internal combustion engine

The invention claimed is: 1. An arrangement for converting thermal energy from lost heat of an internal combustion engine into mechanical energy, comprising: a working circuit for a working medium which is heatable and evaporatable using the lost heat; an expansion engine disposed in the working circuit, wherein mechanical energy from heat of the working medium is obtainable by the expansion engine; and a heat exchanger mounted upstream of the expansion engine in a flow direction of the working medium, wherein the working circuit extends through the heat exchanger; wherein the heat exchanger comprises an exhaust gas recirculation heat exchanger having a cold part and a warm part, an exhaust gas heat exchanger, and a phase transition cooling in the internal combustion engine; wherein the internal combustion engine comprises a cylinder having a cylinder liner; wherein the heat exchanger is formed by serial connection in a sequence of the cold part of the exhaust gas recirculation heat exchanger, the exhaust gas heat exchanger, the phase transition cooling in the internal combustion engine, and the warm part of the exhaust gas recirculation heat exchanger; wherein a cooling duct is provided in the cylinder liner through which the working medium is flowable; wherein the cylinder liner is formed by centrifugal casting using a centrifugal mold and wherein the cooling duct is introduced into the centrifugal mold as an insert prior to the centrifugal casting. 2. The arrangement according to claim 1 , wherein the insert is a cylindrical or toroidal ring. 3. The arrangement according to claim 2 , wherein the cylinder liner has at least two bores that connect with the cylindrical or toroidal ring. 4. The arrangement according to claim 3 , wherein the at least two bores are disposed on opposite sides of the cylindrical or toroidal ring. 5. The arrangement according to claim 4 , wherein the cylindrical or toroidal ring is closed at a point in a circumferential direction with a stop and wherein the at least two bores are disposed adjacent to each other on either side of the stop. 6. The arrangement according to claim 1 , wherein the insert is spiral. 7. The arrangement according to claim 2 further comprising a plurality of inserts in the cylinder liner and wherein the plurality of inserts are toroidal rings. 8. The arrangement according to claim 7 , wherein the plurality of inserts are each provided with an inlet and/or an outlet throttle via which evaporation in the respective insert is adaptable such that a thermal expansion of the cylinder liner is adjustable. 9. A method for making an arrangement for converting thermal energy from lost heat of an internal combustion engine into mechanical energy, wherein the arrangement comprises: a working circuit for a working medium which is heatable and evaporatable using the lost heat; an expansion engine disposed in the working circuit, wherein mechanical energy from heat of the working medium is obtainable by the expansion engine; a heat exchanger mounted upstream of the expansion engine in a flow direction of the working medium, wherein the working circuit extends through the heat exchanger; wherein the heat exchanger comprises an exhaust gas recirculation heat exchanger having a cold part and a warm part, an exhaust gas heat exchanger, and a phase transition cooling in the internal combustion engine; wherein the internal combustion engine comprises a cylinder having a cylinder liner; wherein the heat exchanger is formed by serial connection in a sequence of the cold part of the exhaust gas recirculation heat exchanger, the exhaust gas heat exchanger, the phase transition cooling in the internal combustion engine, and the warm part of the exhaust gas recirculation heat exchanger; wherein a cooling duct is provided in the cylinder liner through which the working medium flows; and comprising the steps of: forming the cylinder liner by centrifugal casting using a centrifugal mold; and introducing the cooling duct into the centrifugal mold as an insert prior to the centrifugal casting.