Method for cooling and/or heating media, preferably in a motor vehicle, and a sorptive heat and cold storage system

What is claimed is: 1. A method for cooling and/or heating media in a motor vehicle, the method comprising: cooling at least one first heat source and/or heating at least one second heat sink by a thermal management system; and shifting heat and/or cold via the thermal management system in space and time to the heat sink and/or heat source, wherein the shifting is performed based on demand of cooling of the heat source or on demand of heating of the heat sink, wherein the heat sink is formed as a vehicle cabin and/or a heating system of the motor vehicle, and wherein the heat source, connected to the thermal management system, is formed as an exhaust gas heat exchanger of the motor vehicle. 2. The method according to claim 1 , wherein a sorptive thermal storage system of the temperature management system is charged by desorption and by condensation of an operating medium from a sorbent and its condensation and storage in a fluid storage device at the ambient temperature. 3. The method according to claim 2 , wherein the fluid storage device is a fluid collector. 4. A sorptive heat and cold storage system for a motor vehicle, the system comprising: a thermally driven condensing unit having a sorption reactor and a condenser connected to the sorption reactor; and a solid or liquid sorption agent; wherein the thermally driven condensing unit is connected to a fluid storage device that is connected via a closable expansion valve to an evaporator for cooling a fluid or gaseous medium that is connected to the thermally driven condensing unit, wherein a heat sink is formed as a vehicle cabin and/or a heating system of the motor vehicle, and wherein a heat source, connected to the thermally driven condensing unit, is formed as an exhaust gas heat exchanger of the motor vehicle. 5. The sorptive heat and cold storage system according to claim 4 , wherein at least one operating medium valve for preventing backflow of an operating medium vapor from the sorption reactor to the evaporator is connected to the sorption reactor. 6. The sorptive heat and cold storage system according to claim 4 , wherein the condenser is run to the fluid storage device, wherein a condensate valve is arranged between the condenser and the fluid storage device to prevent return of a condensed operating medium to the sorption reactor. 7. The sorptive heat and cold storage system according to claim 6 , wherein the sorption reactor has a modular design, and wherein at least two modular sorption reactors are connected between the evaporator and the fluid storage device. 8. The sorptive heat and cold storage system according to claim 4 , wherein the sorption reactor is connected to a plurality of alternative heat sinks. 9. The sorptive heat and cold storage system according to claim 4 , wherein an air to be cooled by the evaporator is provided by a charge air cooler of the vehicle. 10. The sorptive heat and cold storage system according to claim 4 , wherein an internal combustion engine of the motor vehicle, which is arranged in a heating circuit formed by the thermally driven condensing unit and the heat sink, is arranged downstream of the evaporator. 11. The sorptive heat and cold storage system according to claim 4 , wherein the fluid storage device is a fluid collector.