Nonwoven cellulose fiber fabric with different sets of pores

1 . A nonwoven cellulose fiber fabric, in particular directly manufactured from lyocell spinning solution, wherein the fabric comprises a network of substantially endless fibers, and wherein the fabric further comprises: a plurality of first pores delimited between a first plurality of the fibers and having sizes within a first size range; a plurality of second pores delimited between a second plurality of he fibers and having sizes within a second size range; wherein the first size range encompasses sizes being smaller than sizes encompassed by the second size range. 2 . The fabric according to claim 1 , comprising at least one of the following features: wherein at least part of the fibers form part of both the first plurality of the fibers and the second plurality of the fibers; wherein at least part of the fibers form part of only the first plurality of the fibers or only the second plurality of the fibers; wherein the plurality of first pores is suitable for retaining and/or releasing first particles; wherein the plurality of second pores is suitable for retaining and/or releasing second particles; wherein the first size range and the second size range have no size in common; wherein the fibers are configured so that the respective size range of at least one of the plurality of first pores and the plurality of second pores is modified by at least one of the group consisting of swelling and shrinking of the fibers depending on a humidity state of the fibers. 3 . The fabric according to claim 1 , configured so the first particles are enabled to selectively enter into or leave the first pores. 4 . The fabric according to claim 3 , comprising at least one of the following features: wherein the first size range of the first pores is configured so that first particles with a diameter in a range between 0.5 μm and 500 μm, in particular in a range between 3 μm and 300 μm, are enabled to enter into or leave the first pores in a dry state of the fibers; wherein the first size range of the first pores is configured so that first particles with a diameter in a range between 0.5 μm and 500 μm, in particular in a range between 3 μm and 300 μm, are disabled to enter into or leave the first pores in a wet state of the fibers. 5 . The fabric according to claim 1 , comprising at least one of the following features: the plurality of first pores are provided over the entire fabric and the plurality of second pores are provided only over a subsection of the fabric; comprising a medium, in particular comprising at least 1 mass percent of a medium related to a mass of the entire fabric, filling at least one of the plurality of first pores and the plurality of second pores; comprising an active agent accommodated in the plurality of second pores; wherein the endless fibers have an amount of fiber ends per volume of less than 10,000 ends/cm 3 , in particular less than 5,000 ends/cm 3 ; wherein the fibers differ concerning fiber diameter so that a ratio between an average diameter of the 10% thinnest fibers and an average diameter of the 10% thickest fibers is more than 0.01, in particular is more than 0.05, more particularly is more than 0.1; wherein at least 80 mass percent of the fibers have an average fiber diameter in a range between 1 μm and 40 μm, in particular between 3 μm and 15 μm; wherein the fibers have a copper content of less than 5 ppm and/or have a nickel content of less than 2 ppm; wherein the fabric is configured so that a wicking speed is at least 0.25 g water/g fabric/s; wherein the fabric is configured so that cavities defined between at least part of the pores undergo a diameter reduction of at least 20%, in particular at least 30%, from a substantially dry, conditioned state with between 5% and 15% moisture content to a wet state of the fabric with at least more than 20% moisture content; wherein at least part of the fibers are integrally merged at merging positions; wherein the fabric comprises a first fabric portion having the plurality of first pores, and comprises a second fabric portion being different from the first fabric portion and having the plurality of second pores. 6 . A method of manufacturing nonwoven cellulose fiber fabric directly from lyocell spinning solution, wherein the method comprises extruding the lyocell spinning solution through at least one jet with orifices supported by a gas flow into a coagulation fluid atmosphere to thereby form substantially endless fibers; collecting the fibers on a fiber support unit to thereby form the fabric; adjusting process parameters so that the fabric is formed with: a plurality of first pores delimited between a first plurality of the fibers and having sizes within a first size range; a plurality of second pores delimited between a second plurality of the fibers and having sizes within a second size range; wherein the first size range encompasses sizes being smaller than sizes encompassed by the second size range. 7 . The method according to claim 6 , wherein the method further comprises at least one of the group consisting of: adding moisture to at least a portion of the fabric to thereby decrease at least one of the size ranges by moisture-based swelling of at least part of the fibers; removing moisture from at least a portion of the fabric to thereby increase at least one of the size ranges by moisture-based shrinkage of at least part of the fibers; adjusting a humidity state of the fibers for modifying the respective size range of at least one of the group consisting of the plurality of first pores and the plurality of second pores; forming the plurality of second pores after collecting the fibers on the fiber support unit, in particular by hydroentanglement. 8 . The method according to claim 6 , comprising at least one of the following features: wherein each of the plurality of first pores and/or cavities in fluid communication with at least part of the first pores is delimited between at least three fibers of the fabric; wherein each of the plurality of second pores and/or cavities in fluid communication with at least part of the second pores is formed by hydro-entanglement. 9 . The method according to claim 6 , wherein the method further comprises further processing the fibers and/or the fabric in situ after collection on the fiber support unit, in particular by at least one of the group consisting of hydro-entanglement, needle punching, impregnation, steam treatment with a pressurized steam, steam treatment with a pressurized steam, and calendering. 10 . A device for manufacturing nonwoven cellulose fiber fabric directly from lyocell spinning solution, wherein the device comprises: at least one jet with orifices configured for extruding the lyocell spinning solution supported by a gas flow; a coagulation unit configured for providing a coagulation fluid atmosphere for the extruded lyocell spinning solution to thereby form substantially endless fibers; a fiber support unit configured for collecting the fibers to thereby form the fabric; a control unit configured for adjusting process parameters so that the fabric is formed with: a plurality of first pores delimited between a first plurality of the fibers and having sizes within a first size range; a plurality of second pores delimited between a second plurality of the fibers and having sizes within a second size range; wherein the first size range encompasses sizes being smaller than sizes encompassed by the second size range. 11 . The device according to claim 10 , comprising a further processing unit for forming the plurality of second pores after collecting the fibers on the fiber support unit, in particular by hydr