Reaction carrier, measuring system and measuring method for determining gas and particle concentrations, and optical flow sensor

The invention claimed is: 1. A reaction carrier for a measuring system for measuring a concentration of gaseous and/or aerosol components of a gas mixture the reaction carrier comprising: at least one flow channel, wherein the flow channel forms a reaction chamber with a reactant, which is configured to react with at least one of the components to be measured in the gas mixture or with a reaction product of the component to be measured in an optically detectable manner; particles at least partially filling the flow channel the particles having a starting position before the gas mixture flows through the flow channel, and a flow position, wherein the particles are configured to move in the flow channel from the starting position to the flow position via the gas mixture flowing through the at least one flow channel, wherein the particles in the starting position are optically distinguishable from the particles in the flow position. 2. A reaction carrier in accordance with claim 1 , wherein the particles have different sizes and wherein particles of different sizes are mixed in the starting position and the particles of different sizes are at least partially segregated in the flow position. 3. A reaction carrier in accordance with claim 1 , wherein the particles have a flow shape in order to be oriented into their flow position in a gas flow in a predetermined orientation in the direction of flow. 4. A reaction carrier in accordance with claim 1 , wherein the particles possess mechanical, electric and/or magnetic properties in order to be moved into a restored position by a mechanical, electric and/or magnetic force acting on the particles, the particles being configured such that the particles in the restored position and the particles in the flow position can be optically distinguished. 5. A reaction carrier in accordance with claim 2 , wherein the particles have a flow shape in order to be oriented into their flow position in a gas flow in a predetermined orientation in the direction of flow. 6. A reaction carrier in accordance with claim 5 , wherein the particles possess mechanical, electric and/or magnetic properties in order to be moved into a restored position by a mechanical, electric and/or magnetic force acting on the particles, the particles being configured such that the particles in the restored position and the particles in the flow position can be optically distinguished. 7. A reaction carrier in accordance with claim 2 , wherein the particles possess mechanical, electric and/or magnetic properties in order to be moved into a restored position by a mechanical, electric and/or magnetic force acting on the particles, the particles being configured such that the particles in the restored position and the particles in the flow position can be optically distinguished. 8. A reaction carrier in accordance with claim 3 , wherein the particles possess mechanical, electric and/or magnetic properties in order to be moved into a restored position by a mechanical, electric and/or magnetic force acting on the particles, the particles being configured such that the particles in the restored position and the particles in the flow position can be optically distinguished. 9. A reaction carrier in accordance with claim 1 , wherein the reactant comprises a chemical compound, which reacts with the at least one of the components to be measured in the gas mixture or with the reaction product of the component to be measured upon the gas mixture being introduced into the at least one flow channel, the at least one of the components to be measured in the gas mixture being a gas component to be measured in the gas mixture, the reaction product of the component to be measured being an aerosol component. 10. A reaction carrier in accordance with claim 1 , wherein the at least one channel comprises an inlet, an outlet, a closed state and an open state, the inlet and the outlet being sealed in the closed state, wherein the gas mixture passes through the inlet and the outlet in the open state. 11. A reaction carrier in accordance with claim 1 , wherein the reaction carrier is configured to move from an initial position to a measuring position, the reaction carrier being located at a spaced location from the measuring system in the initial position, the reaction carrier being located adjacent to the measuring system in the measuring position. 12. A reaction carrier in accordance with claim 11 , wherein the at least one flow channel is aligned with an inlet gas port and an outlet gas port of the measuring system when the reaction carrier is in the measuring position. 13. A measuring system for measuring a concentration of gaseous and/or aerosol components of a gas mixture, the system comprising: a reaction carrier comprising at least one flow channel that forms a reaction chamber with a reactant, which is designed to react with at least one of the components to be measured in the gas mixture or with a reaction product of the component to be measured in an optically detectable manner and particles at least partially filling the flow channel the particles having a starting position before the gas mixture flows through the flow channel, and a flow position, wherein the particles are configured to move from the starting position to the flow position via the gas mixture flowing through the flow channel, wherein the particles in the starting position are optically distinguishable from the particles in the flow position; and a measuring device comprising an optical sensor, which detects the flow channel of the reaction carrier and is configured to optically determine the starting position and the flow position of the particles. 14. A measuring system in accordance with claim 13 , wherein at least one of the measuring device and the reaction carrier is configured to generate an electric or magnetic field in the flow channel of the reaction carrier. 15. A measuring system in accordance with claim 13 , wherein the measuring device further comprises an analysis unit, the optical sensor recording a reference image of the flow channel before the delivery of the gas mixture through the at least one flow channel and the optical sensor recording a flow image of the flow channel during the delivery of the gas mixture through the at least flow channel, the analysis unit being configured to determine the gas mixture flowing through the flow channel based on the reference image and the flow image. 16. A measuring system in accordance with claim 13 , wherein the reactant comprises a chemical compound, which reacts with the at least one of the components to be measured in the gas mixture or with the reaction product of the component to be measured upon the gas mixture being introduced into the at least one flow channel, the at least one of the components to be measured in the gas mixture being a gas component to be measured in the gas mixture, the reaction product of the component to be measured being an aerosol component. 17. A measuring method for measuring a concentration of gaseous and/or aerosol components of a gas mixture the method comprising the steps of: providing a reaction carrier comprising at least one flow channel that forms a reaction chamber with a reactant, which is designed to react with at least one of the components to be measured in the gas mixture or with a reaction product of the component to be measured in an optically detectable manner and particles at least partially filling the flow channel the particles having a starting position before the gas mixture flows through the flow channel, and are brought by a gas flo