Measuring arrangement for determining an ozone content of a measured medium

The invention claimed is: 1. A measuring arrangement for measuring an ozone content in a measured medium, the measuring arrangement comprising: a first sensor surface and a second sensor surface; a first cover element adjacent the first sensor surface and including an ozone binder substance that binds ozone without releasing oxygen or any species further reacting to form oxygen, wherein a side of the first cover element facing away from the first sensor surface is adapted to contact the measured medium, and wherein the first cover element is permeable at least to oxygen; a second cover element adjacent the second sensor surface and including an ozone converter substance that reacts with ozone to form oxygen, wherein a side of the second cover element facing away from the second sensor surface is adapted to contact the measured medium, and wherein the second cover element is permeable at least to oxygen; a measuring sensor configured to generate a first measurement signal dependent on a first oxygen concentration present at the first sensor surface and a second measurement signal dependent on a second oxygen concentration present at the second sensor surface; and an electronic evaluation unit configured to determine a value of a measured variable representing the ozone content in the measured medium based on the first measurement signal and second measurement signal. 2. The measuring arrangement of claim 1 , wherein the measuring sensor comprises: light source and a second light source; a light receiver; a membrane including the first sensor surface and the second sensor surface and in which an oxygen indicator substance is immobilized; and optical waveguides connecting the first light source and the light receiver to a region of the membrane covered by the first sensor surface, the optical waveguides further connecting the second light source and the light receiver to a region of the membrane covered by the second sensor surface, wherein the light receiver is configured to convert light received via the optical waveguides into electrical signals, and wherein the measuring sensor further comprises a measuring circuit configured to generate the first measurement signal and the second measurement signal from the electrical signals from the light receiver. 3. The measuring arrangement of claim 1 , wherein the measuring sensor comprises: a light source; a first light receiver and a second light receiver; a membrane including the first sensor surface and the second sensor surface and in which an oxygen indicator substance is immobilized; and optical waveguides connecting the light source and the first light receiver to a region of the membrane covered by the first sensor surface, the optical waveguides further connecting the light source and the second light receiver to a region of the membrane covered by the second sensor surface, wherein the first light receiver and the second light receiver are each configured to convert light received via the optical waveguides into electrical signals, and wherein the measuring sensor includes a measuring circuit configured to generate the first measurement signal and the second measurement signal from the electrical signals from the first light receiver and second light receiver, respectively. 4. The measuring arrangement of claim 1 , wherein the measuring sensor comprises: a light source; a light receiver; a first membrane including the first sensor surface and a second membrane including the second sensor surface, wherein an oxygen indicator substance is immobilized in the first membrane and in the second membrane; one or more first optical waveguides connecting the light source and the light receiver to the first membrane; and one or more second optical waveguides connecting the light source and the light receiver to the second membrane, wherein the light receiver is configured to convert light received via the first optical waveguides and second optical waveguides into electrical signals, and wherein the measuring sensor includes a measuring circuit configured to generate the first measurement signal and the second measurement signal from the electrical signals from the light receiver. 5. The measuring arrangement of claim 1 , wherein the measuring sensor comprises: a first light source and a second light source; a first light receiver and a second light receiver; a first membrane including the first sensor surface and a second membrane including the second sensor surface, wherein an oxygen indicator substance is immobilized in the first membrane and in the second membrane; one or more first optical waveguides connecting the first light source and the first light receiver to the first membrane; and one or more second optical waveguides connecting the second light source and the second light receiver to the second membrane. 6. The measuring arrangement of claim 5 , wherein: the first light receiver is adapted to convert light received via the one or more first optical waveguides into first electrical signals; the second light receiver is adapted to convert light received via the one or more second optical waveguides into second electrical signals; and the measuring sensor includes a measuring circuit configured to generate the first measurement signal from the first electrical signals and the second measurement signal from the second electrical signals. 7. The measuring arrangement of claim 1 , wherein the measuring sensor comprises: a first membrane including the first sensor surface and a second membrane including the second sensor surface, wherein the first membrane and second membrane are permeable to oxygen; a first electrolyte chamber, which is at least partial enclosed by the first membrane and filled with a first electrolyte, in which a first working electrode and a first counter electrode are arranged; a second electrolyte chamber, which is at least partial enclosed by the second membrane and filled with a second electrolyte, in which a second working electrode and a second counter electrode are arranged; and a measuring circuit configured to generate: first electrical signals representative of a current passing through the first electrolyte at a first polarization voltage applied between the first working electrode and the first counter electrode; the first measurement signal from the first electrical signals; second electrical signals representative of a current passing through the second electrolyte at a second polarization voltage applied between the second working electrode and the second counter electrode; and the second measurement signal from the second electrical signals. 8. The measuring arrangement of claim 1 , wherein the first cover element is a layer disposed adjacent the first sensor surface, and the second cover element is a layer disposed adjacent the second sensor surface. 9. The measuring arrangement of claim 1 , wherein the first cover element is a detachable capsule disposed upstream of the first sensor surface or a compartment of a capsule, the compartment adjacent the first sensor surface, and wherein the second cover element is a detachable capsule disposed upstream of the second sensor surface or a compartment of a capsule, the compartment adjacent the second sensor surface. 10. The measuring arrangement of claim 9 , wherein the capsule includes a compartment containing the ozone binder and/or a compartment containing an ozone scavenger, wherein the compartment or each compartment has a media-contacting front wall and a rear wall contacting the first sensor surface and/or the second sensor surface, and wherein the front wall and the rear wall have a liquid transfer feature. 11.