Mixing arrangement for an exhaust-gas system of an internal combustion engine

The invention claimed is: 1. A mixing arrangement for an exhaust-gas system of an internal combustion engine for mixing exhaust gas and reactant, the mixing arrangement comprising: an exhaust-gas guide delimiting an exhaust-gas flow volume and extending in a direction of a longitudinal axis; a reactant dispenser configured to dispense reactant into said exhaust-gas flow volume; an exhaust-gas flow volume divider arranged downstream of said reactant dispenser; said exhaust-gas flow volume divider being configured to divide the exhaust-gas flow volume in a dividing length region into a plurality of partial exhaust-gas flow volumes and including a plurality of dividing bodies nested one inside the other for providing a radially staggered arrangement of said exhaust-gas guide and said plurality of dividing bodies in said dividing length region; said plurality of partial exhaust-gas flow volumes including a central partial exhaust-gas flow volume and a plurality of partial exhaust-gas flow volumes surrounding said central partial exhaust-gas flow volume in an annular manner; and a total surface provided in the dividing length region by said exhaust-gas guide and said plurality of dividing bodies providing an evaporation surface for evaporating reactant dispensed by said reactant dispenser upstream of said exhaust-gas flow volume divider. 2. The mixing arrangement of claim 1 , wherein at least one of the following applies to said exhaust-gas guide which: i) is of tubular form at least in said dividing length region; ii) extends rectilinearly in said direction of said longitudinal axis; and, iii) has a circular cross-sectional geometry at least in said dividing length region. 3. The mixing arrangement of claim 1 , wherein said at least ene each dividing body extends rectilinearly in the direction of the longitudinal axis. 4. The mixing arrangement of claim 1 , wherein at least two of said dividing bodies are arranged to be mutually concentric. 5. The mixing arrangement of claim 1 , wherein at least two of said dividing bodies are formed with a same cross-sectional geometry. 6. The mixing arrangement of claim 1 , wherein at least one of said dividing bodies is formed having a circular cross-sectional geometry. 7. The mixing arrangement of claim 1 , wherein said exhaust-gas flow volume divider defines a downstream end region; and, all of said dividing bodies end in said downstream end region. 8. The mixing arrangement of claim 1 , wherein said exhaust-gas flow volume divider defines an upstream end region; and, at least two dividing bodies of said plurality of dividing bodies end in different axial locations in said upstream end region. 9. The mixing arrangement of claim 8 , wherein at least one of said plurality of dividing bodies is positioned radially farther to the outside with respect to an other dividing body of said plurality of dividing bodies; and, said at least one dividing body has a greater extent length in the upstream direction than said other dividing body. 10. The mixing arrangement of claim 1 , further comprising at least one exhaust gas/reactant mixer arranged downstream of said reactant dispenser and upstream of said exhaust-gas flow volume divider. 11. An exhaust-gas system for an internal combustion engine, the exhaust-gas system comprising: a mixing arrangement including: an exhaust-gas guide delimiting an exhaust-gas flow volume and extending in a direction of a longitudinal axis; a reactant dispenser configured to dispense reactant into said exhaust-gas flow volume; an exhaust-gas flow volume divider arranged downstream of said reactant dispenser; said exhaust-gas flow volume divider being configured to divide the exhaust-gas flow volume in a dividing length region into a plurality of partial exhaust-gas flow volumes and including a plurality of dividing bodies nested one inside the other for providing a radially staggered arrangement of said exhaust-gas guide and said plurality of dividing bodies in said dividing length region; said plurality of partial exhaust-gas flow volumes including a central partial exhaust-gas flow volume and a plurality of partial exhaust-gas flow volumes surrounding said central partial exhaust-gas flow volume in an annular manner, a total surface provided in the dividing length region by said exhaust-gas guide and said plurality of dividing bodies providing an evaporation surface for evaporating reactant dispensed by said reactant dispenser upstream of said exhaust-gas flow volume divider; and, at least one exhaust-gas treatment unit being arranged downstream of said mixing arrangement. 12. The exhaust-gas system of claim 11 , wherein said exhaust-gas treatment unit is an SCR catalytic converter.