Photobioreactor with laterally light-emitting light conductor mats

1 . A photobioreactor for cultivating phototrophic organisms, the photobioreactor comprising: a container for receiving the phototrophic organisms together with a nutrient solution; and at least one laterally light out-coupling light conductor mat; wherein the light conductor mat is arranged within the container, and wherein the light conductor mat comprises a plurality of light conducting fibres, that are arranged and/or designed such that light that is coupled into the fibres at one end of a fibre leaves the fibres laterally at least in part. 2 . The photobioreactor of claim 1 , wherein the light conductor mat is arranged such that a minimum distance between a position in the container and the closest region of the light conductor mat is less than 10 cm for at least 90% of the possible positions within the container. 3 . The photobioreactor of claim 1 , wherein the container has dimensions of greater than 50 cm in all directions in space. 4 . The photobioreactor of claim 1 , comprising a plurality of laterally light out-coupling light conductor mats, that are distributed over the entire volume of the container. 5 . The photobioreactor of claim 1 , wherein the light conducting fibres are arranged in the light conductor mat so as to be locally bent such that portions of light guided in a fibre are locally coupled out of the fibre laterally, at least in regions having a minimum radius of curvature. 6 . The photobioreactor of claim 1 , wherein the light conducting fibres are woven in the light conductor mat. 7 . The photobioreactor of claim 1 , wherein the light conducting fibres have local variations in the index of refraction. 8 . The photobioreactor of claim 1 , wherein scattering centres and/or fluorescence centres are integrated in the light conducting fibres. 9 . The photobioreactor of claim 1 , wherein the light conducting fibres are made of a material that does not substantially transmit light in the infrared wavelength range. 10 . The photobioreactor of claim 1 , further comprising a mat moving device, that moves the light conductor mat relative to the container. 11 . A photobioreactor system, comprising: a photobioreactor for cultivating phototrophic organisms, the photobioreactor comprising: a container for receiving the phototrophic organisms can be received together with a nutrient solution; and at least one laterally light out-coupling light conductor mat; wherein the light conductor mat is arranged within the container, and wherein the light conductor mat comprises a plurality of light conducting fibres, that are arranged and/or designed such that light that is coupled into the fibres at one end of a fibre leaves the fibres laterally at least in part; and a light source, wherein the light source is coupled to light conducting fibres of the at least one light conductor mat of the photobioreactor in order to couple light from the light source into the light conducting fibres. 12 . The photobioreactor system of claim 11 , wherein the light source collects sunlight and couples it into the light conducting fibres. 13 . The photobioreactor system of claim 11 , wherein the light source artificially generates light and couples it into the light conducting fibres. 14 . The photobioreactor system of claim 11 , wherein the light source only couples light that is substantially within a wavelength range from 400 to 700 nm into the light conducting fibres. 15 . The photobioreactor system of claim 11 , further comprising a photodetector, wherein the photodetector is connected to light conducting fibres of the at least one light conductor mat of the photobioreactor in order to collect light which has been coupled into the light conducting fibres from the inside of the container of the photobioreactor. 16 . A photobioreactor for cultivating phototrophic organisms, the photobioreactor comprising: a container for receiving the phototrophic organisms can be received together with a nutrient solution; and at least one laterally light out-coupling light conductor mat; wherein the light conductor mat is arranged within the container, and wherein the light conductor mat comprises a plurality of light conducting fibres, that are arranged and/or designed such that light that is coupled into the fibres at one end of a fibre leaves the fibres laterally at least in part, wherein the light conductor mat is arranged such that a minimum distance between a position in the container and the closest region of the light conductor mat is less than 10 cm for at least 90% of the possible positions within the container; and wherein the container has dimensions of greater than 50 cm in all directions in space. 17 . The photobioreactor of claim 16 , further comprising: a plurality of laterally light out-coupling light conductor mats that are distributed over the entire volume of the container, wherein the light conducting fibres are arranged in the light conductor mat so as to be locally bent such that portions of light guided in a fibre are locally coupled out of the fibre laterally, at least in regions having a minimum radius of curvature. 18 . The photobioreactor of claim 17 , wherein the light conducting fibres are woven in the light conductor mat, wherein the light conducting fibres have local variations in the index of refraction, and wherein scattering centres and/or fluorescence centres are integrated in the light conducting fibres. 19 . The photobioreactor of claim 18 , wherein the light conducting fibres are made of a material that does not substantially transmit light in the infrared wavelength range and further comprising a mat moving device that moves the light conductor mat relative to the container.